V. Kravtsov - Sternberg Astronomical Institute

V. Kravtsov
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Name
V. Kravtsov
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Sternberg Astronomical Institute
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Physics - Disordered Systems and Neural Networks (18)
 
High Energy Physics - Experiment (10)
 
Physics - Statistical Mechanics (10)
 
Physics - Instrumentation and Detectors (8)
 
Physics - Mesoscopic Systems and Quantum Hall Effect (6)
 
Astrophysics of Galaxies (6)
 
Physics - Strongly Correlated Electrons (5)
 
Mathematical Physics (4)
 
Nuclear Experiment (4)
 
Mathematics - Mathematical Physics (4)
 
Physics - Superconductivity (3)
 
Physics - Materials Science (3)
 
Nuclear Theory (2)
 
General Relativity and Quantum Cosmology (1)
 
High Energy Physics - Theory (1)
 
Earth and Planetary Astrophysics (1)
 
Physics - Optics (1)
 
Solar and Stellar Astrophysics (1)
 
Mathematics - Number Theory (1)

Publications Authored By V. Kravtsov

We report the results of the numerical study of the non-dissipative quantum Josephson junction chain at high temperatures. The disorder in this chain is due to the random offset charges. This chain is one of the simplest physical systems to study many body localization. Read More

We report structural, susceptibility and specific heat studies of stoichiometric and off-stoichiometric poly- and single crystals of the A-site spinel compound FeSc2S4. In stoichiometric samples no long-range magnetic order is found down to 1.8 K. Read More

We consider disordered tight-binding models which Green's functions obey the self-consistent cavity equations . Based on these equations and the replica representation, we derive an analytical expression for the fractal dimension D_{1} that distinguishes between the extended ergodic, D_{1}=1, and extended non-ergodic (multifractal), 0Read More

We study the ground state conduction properties of noninteracting electrons in aperiodic but non-random one-dimensional models with chiral symmetry, and make comparisons against Anderson models with non-deterministic disorder. The first model we consider is the Fibonacci lattice, which is a paradigmatic model of quasicrystals; the second is the Riemann lattice, which we define inspired by Dyson's proposal on the possible connection between the Riemann hypothesis and a suitably defined quasicrystal. Our analysis is based on Kohn's many-particle localization tensor defined within the modern theory of the insulating state. Read More

We combine numerical diagonalization with a semi-analytical calculations to prove the existence of the intermediate non-ergodic but delocalized phase in the Anderson model on disordered hierarchical lattices. We suggest a new generalized population dynamics that is able to detect the violation of ergodicity of the delocalized states within the Abou-Chakra, Anderson and Thouless recursive scheme. This result is supplemented by statistics of random wave functions extracted from exact diagonalization of the Anderson model on ensemble of disordered Random Regular Graphs (RRG) of N sites with the connectivity K=2. Read More

2016Jan
Authors: P. Adamson1, C. Ader2, M. Andrews3, N. Anfimov4, I. Anghel5, K. Arms6, E. Arrieta-Diaz7, A. Aurisano8, D. S. Ayres9, C. Backhouse10, M. Baird11, B. A. Bambah12, K. Bays13, R. Bernstein14, M. Betancourt15, V. Bhatnagar16, B. Bhuyan17, J. Bian18, K. Biery19, T. Blackburn20, V. Bocean21, D. Bogert22, A. Bolshakova23, M. Bowden24, C. Bower25, D. Broemmelsiek26, C. Bromberg27, G. Brunetti28, X. Bu29, A. Butkevich30, D. Capista31, E. Catano-Mur32, T. R. Chase33, S. Childress34, B. C. Choudhary35, B. Chowdhury36, T. E. Coan37, J. A. B. Coelho38, M. Colo39, J. Cooper40, L. Corwin41, D. Cronin-Hennessy42, A. Cunningham43, G. S. Davies44, J. P. Davies45, M. Del Tutto46, P. F. Derwent47, K. N. Deepthi48, D. Demuth49, S. Desai50, G. Deuerling51, A. Devan52, J. Dey53, R. Dharmapalan54, P. Ding55, S. Dixon56, Z. Djurcic57, E. C. Dukes58, H. Duyang59, R. Ehrlich60, G. J. Feldman61, N. Felt62, E. J. Fenyves63, E. Flumerfelt64, S. Foulkes65, M. J. Frank66, W. Freeman67, M. Gabrielyan68, H. R. Gallagher69, M. Gebhard70, T. Ghosh71, W. Gilbert72, A. Giri73, S. Goadhouse74, R. A. Gomes75, L. Goodenough76, M. C. Goodman77, V. Grichine78, N. Grossman79, R. Group80, J. Grudzinski81, V. Guarino82, B. Guo83, A. Habig84, T. Handler85, J. Hartnell86, R. Hatcher87, A. Hatzikoutelis88, K. Heller89, C. Howcroft90, J. Huang91, X. Huang92, J. Hylen93, M. Ishitsuka94, F. Jediny95, C. Jensen96, D. Jensen97, C. Johnson98, H. Jostlein99, G. K. Kafka100, Y. Kamyshkov101, S. M. S. Kasahara102, S. Kasetti103, K. Kephart104, G. Koizumi105, S. Kotelnikov106, I. Kourbanis107, Z. Krahn108, V. Kravtsov109, A. Kreymer110, Ch. Kulenberg111, A. Kumar112, T. Kutnink113, R. Kwarciancy114, J. Kwong115, K. Lang116, A. Lee117, W. M. Lee118, K. Lee119, S. Lein120, J. Liu121, M. Lokajicek122, J. Lozier123, Q. Lu124, P. Lucas125, S. Luchuk126, P. Lukens127, G. Lukhanin128, S. Magill129, K. Maan130, W. A. Mann131, M. L. Marshak132, M. Martens133, J. Martincik134, P. Mason135, K. Matera136, M. Mathis137, V. Matveev138, N. Mayer139, E. McCluskey140, R. Mehdiyev141, H. Merritt142, M. D. Messier143, H. Meyer144, T. Miao145, D. Michael146, S. P. Mikheyev147, W. H. Miller148, S. R. Mishra149, R. Mohanta150, A. Moren151, L. Mualem152, M. Muether153, S. Mufson154, J. Musser155, H. B. Newman156, J. K. Nelson157, E. Niner158, A. Norman159, J. Nowak160, Y. Oksuzian161, A. Olshevskiy162, J. Oliver163, T. Olson164, J. Paley165, P. Pandey166, A. Para167, R. B. Patterson168, G. Pawloski169, N. Pearson170, D. Perevalov171, D. Pershey172, E. Peterson173, R. Petti174, S. Phan-Budd175, L. Piccoli176, A. Pla-Dalmau177, R. K. Plunkett178, R. Poling179, B. Potukuchi180, F. Psihas181, D. Pushka182, X. Qiu183, N. Raddatz184, A. Radovic185, R. A. Rameika186, R. Ray187, B. Rebel188, R. Rechenmacher189, B. Reed190, R. Reilly191, D. Rocco192, D. Rodkin193, K. Ruddick194, R. Rusack195, V. Ryabov196, K. Sachdev197, S. Sahijpal198, H. Sahoo199, O. Samoylov200, M. C. Sanchez201, N. Saoulidou202, P. Schlabach203, J. Schneps204, R. Schroeter205, J. Sepulveda-Quiroz206, P. Shanahan207, B. Sherwood208, A. Sheshukov209, J. Singh210, V. Singh211, A. Smith212, D. Smith213, J. Smolik214, N. Solomey215, A. Sotnikov216, A. Sousa217, K. Soustruznik218, Y. Stenkin219, M. Strait220, L. Suter221, R. L. Talaga222, M. C. Tamsett223, S. Tariq224, P. Tas225, R. J. Tesarek226, R. B. Thayyullathil227, K. Thomsen228, X. Tian229, S. C. Tognini230, R. Toner231, J. Trevor232, G. Tzanakos233, J. Urheim234, P. Vahle235, L. Valerio236, L. Vinton237, T. Vrba238, A. V. Waldron239, B. Wang240, Z. Wang241, A. Weber242, A. Wehmann243, D. Whittington244, N. Wilcer245, R. Wildberger246, D. Wildman247, K. Williams248, S. G. Wojcicki249, K. Wood250, M. Xiao251, T. Xin252, N. Yadav253, S. Yang254, S. Zadorozhnyy255, J. Zalesak256, B. Zamorano257, A. Zhao258, J. Zirnstein259, R. Zwaska260
Affiliations: 1the NOvA Collaboration, 2the NOvA Collaboration, 3the NOvA Collaboration, 4the NOvA Collaboration, 5the NOvA Collaboration, 6the NOvA Collaboration, 7the NOvA Collaboration, 8the NOvA Collaboration, 9the NOvA Collaboration, 10the NOvA Collaboration, 11the NOvA Collaboration, 12the NOvA Collaboration, 13the NOvA Collaboration, 14the NOvA Collaboration, 15the NOvA Collaboration, 16the NOvA Collaboration, 17the NOvA Collaboration, 18the NOvA Collaboration, 19the NOvA Collaboration, 20the NOvA Collaboration, 21the NOvA Collaboration, 22the NOvA Collaboration, 23the NOvA Collaboration, 24the NOvA Collaboration, 25the NOvA Collaboration, 26the NOvA Collaboration, 27the NOvA Collaboration, 28the NOvA Collaboration, 29the NOvA Collaboration, 30the NOvA Collaboration, 31the NOvA Collaboration, 32the NOvA Collaboration, 33the NOvA Collaboration, 34the NOvA Collaboration, 35the NOvA Collaboration, 36the NOvA Collaboration, 37the NOvA Collaboration, 38the NOvA Collaboration, 39the NOvA Collaboration, 40the NOvA Collaboration, 41the NOvA Collaboration, 42the NOvA Collaboration, 43the NOvA Collaboration, 44the NOvA Collaboration, 45the NOvA Collaboration, 46the NOvA Collaboration, 47the NOvA Collaboration, 48the NOvA Collaboration, 49the NOvA Collaboration, 50the NOvA Collaboration, 51the NOvA Collaboration, 52the NOvA Collaboration, 53the NOvA Collaboration, 54the NOvA Collaboration, 55the NOvA Collaboration, 56the NOvA Collaboration, 57the NOvA Collaboration, 58the NOvA Collaboration, 59the NOvA Collaboration, 60the NOvA Collaboration, 61the NOvA Collaboration, 62the NOvA Collaboration, 63the NOvA Collaboration, 64the NOvA Collaboration, 65the NOvA Collaboration, 66the NOvA Collaboration, 67the NOvA Collaboration, 68the NOvA Collaboration, 69the NOvA Collaboration, 70the NOvA Collaboration, 71the NOvA Collaboration, 72the NOvA Collaboration, 73the NOvA Collaboration, 74the NOvA Collaboration, 75the NOvA Collaboration, 76the NOvA Collaboration, 77the NOvA 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We report results from the first search for $\nu_\mu\to\nu_e$ transitions by the NOvA experiment. In an exposure equivalent to $2.74\times10^{20}$ protons-on-target in the upgraded NuMI beam at Fermilab, we observe 6 events in the Far Detector, compared to a background expectation of $0. Read More

2016Jan
Authors: P. Adamson1, C. Ader2, M. Andrews3, N. Anfimov4, I. Anghel5, K. Arms6, E. Arrieta-Diaz7, A. Aurisano8, D. Ayres9, C. Backhouse10, M. Baird11, B. A. Bambah12, K. Bays13, R. Bernstein14, M. Betancourt15, V. Bhatnagar16, B. Bhuyan17, J. Bian18, K. Biery19, T. Blackburn20, V. Bocean21, D. Bogert22, A. Bolshakova23, M. Bowden24, C. Bower25, D. Broemmelsiek26, C. Bromberg27, G. Brunetti28, X. Bu29, A. Butkevich30, D. Capista31, E. Catano-Mur32, T. R. Chase33, S. Childress34, B. C. Choudhary35, B. Chowdhury36, T. E. Coan37, J. A. B. Coelho38, M. Colo39, J. Cooper40, L. Corwin41, D. Cronin-Hennessy42, A. Cunningham43, G. S. Davies44, J. P. Davies45, M. Del Tutto46, P. F. Derwent47, K. N. Deepthi48, D. Demuth49, S. Desai50, G. Deuerling51, A. Devan52, J. Dey53, R. Dharmapalan54, P. Ding55, S. Dixon56, Z. Djurcic57, E. C. Dukes58, H. Duyang59, R. Ehrlich60, G. J. Feldman61, N. Felt62, E. J. Fenyves63, E. Flumerfelt64, S. Foulkes65, M. J. Frank66, W. Freeman67, M. Gabrielyan68, H. R. Gallagher69, M. Gebhard70, T. Ghosh71, W. Gilbert72, A. Giri73, S. Goadhouse74, R. A. Gomes75, L. Goodenough76, M. C. Goodman77, V. Grichine78, N. Grossman79, R. Group80, J. Grudzinski81, V. Guarino82, B. Guo83, A. Habig84, T. Handler85, J. Hartnell86, R. Hatcher87, A. Hatzikoutelis88, K. Heller89, C. Howcroft90, J. Huang91, X. Huang92, J. Hylen93, M. Ishitsuka94, F. Jediny95, C. Jensen96, D. Jensen97, C. Johnson98, H. Jostlein99, G. K. Kafka100, Y. Kamyshkov101, S. M. S. Kasahara102, S. Kasetti103, K. Kephart104, G. Koizumi105, S. Kotelnikov106, I. Kourbanis107, Z. Krahn108, V. Kravtsov109, A. Kreymer110, Ch. Kulenberg111, A. Kumar112, T. Kutnink113, R. Kwarciancy114, J. Kwong115, K. Lang116, A. Lee117, W. M. Lee118, K. Lee119, S. Lein120, J. Liu121, M. Lokajicek122, J. Lozier123, Q. Lu124, P. Lucas125, S. Luchuk126, P. Lukens127, G. Lukhanin128, S. Magill129, K. Maan130, W. A. Mann131, M. L. Marshak132, M. Martens133, J. Martincik134, P. Mason135, K. Matera136, M. Mathis137, V. Matveev138, N. Mayer139, E. McCluskey140, R. Mehdiyev141, H. Merritt142, M. D. Messier143, H. Meyer144, T. Miao145, D. Michael146, S. P. Mikheyev147, W. H. Miller148, S. R. Mishra149, R. Mohanta150, A. Moren151, L. Mualem152, M. Muether153, S. Mufson154, J. Musser155, H. B. Newman156, J. K. Nelson157, E. Niner158, A. Norman159, J. Nowak160, Y. Oksuzian161, A. Olshevskiy162, J. Oliver163, T. Olson164, J. Paley165, P. Pandey166, A. Para167, R. B. Patterson168, G. Pawloski169, N. Pearson170, D. Perevalov171, D. Pershey172, E. Peterson173, R. Petti174, S. Phan-Budd175, L. Piccoli176, A. Pla-Dalmau177, R. K. Plunkett178, R. Poling179, B. Potukuchi180, F. Psihas181, D. Pushka182, X. Qiu183, N. Raddatz184, A. Radovic185, R. A. Rameika186, R. Ray187, B. Rebel188, R. Rechenmacher189, B. Reed190, R. Reilly191, D. Rocco192, D. Rodkin193, K. Ruddick194, R. Rusack195, V. Ryabov196, K. Sachdev197, S. Sahijpal198, H. Sahoo199, O. Samoylov200, M. C. Sanchez201, N. Saoulidou202, P. Schlabach203, J. Schneps204, R. Schroeter205, J. Sepulveda-Quiroz206, P. Shanahan207, B. Sherwood208, A. Sheshukov209, J. Singh210, V. Singh211, A. Smith212, D. Smith213, J. Smolik214, N. Solomey215, A. Sotnikov216, A. Sousa217, K. Soustruznik218, Y. Stenkin219, M. Strait220, L. Suter221, R. L. Talaga222, M. C. Tamsett223, S. Tariq224, P. Tas225, R. J. Tesarek226, R. B. Thayyullathil227, K. Thomsen228, X. Tian229, S. C. Tognini230, R. Toner231, J. Trevor232, G. Tzanakos233, J. Urheim234, P. Vahle235, L. Valerio236, L. Vinton237, T. Vrba238, A. V. Waldron239, B. Wang240, Z. Wang241, A. Weber242, A. Wehmann243, D. Whittington244, N. Wilcer245, R. Wildberger246, D. Wildman247, K. Williams248, S. G. Wojcicki249, K. Wood250, M. Xiao251, T. Xin252, N. Yadav253, S. Yang254, S. Zadorozhnyy255, J. Zalesak256, B. Zamorano257, A. Zhao258, J. Zirnstein259, R. Zwaska260
Affiliations: 1the NOvA Collaboration, 2the NOvA Collaboration, 3the NOvA Collaboration, 4the NOvA Collaboration, 5the NOvA Collaboration, 6the NOvA Collaboration, 7the NOvA Collaboration, 8the NOvA Collaboration, 9the NOvA Collaboration, 10the NOvA Collaboration, 11the NOvA Collaboration, 12the NOvA Collaboration, 13the NOvA Collaboration, 14the NOvA Collaboration, 15the NOvA Collaboration, 16the NOvA Collaboration, 17the NOvA Collaboration, 18the NOvA Collaboration, 19the NOvA Collaboration, 20the NOvA Collaboration, 21the NOvA Collaboration, 22the NOvA Collaboration, 23the NOvA Collaboration, 24the NOvA Collaboration, 25the NOvA Collaboration, 26the NOvA Collaboration, 27the NOvA Collaboration, 28the NOvA Collaboration, 29the NOvA Collaboration, 30the NOvA Collaboration, 31the NOvA Collaboration, 32the NOvA Collaboration, 33the NOvA Collaboration, 34the NOvA Collaboration, 35the NOvA Collaboration, 36the NOvA Collaboration, 37the NOvA Collaboration, 38the NOvA Collaboration, 39the NOvA Collaboration, 40the NOvA Collaboration, 41the NOvA Collaboration, 42the NOvA Collaboration, 43the NOvA Collaboration, 44the NOvA Collaboration, 45the NOvA Collaboration, 46the NOvA Collaboration, 47the NOvA Collaboration, 48the NOvA Collaboration, 49the NOvA Collaboration, 50the NOvA Collaboration, 51the NOvA Collaboration, 52the NOvA Collaboration, 53the NOvA Collaboration, 54the NOvA Collaboration, 55the NOvA Collaboration, 56the NOvA Collaboration, 57the NOvA Collaboration, 58the NOvA Collaboration, 59the NOvA Collaboration, 60the NOvA Collaboration, 61the NOvA Collaboration, 62the NOvA Collaboration, 63the NOvA Collaboration, 64the NOvA Collaboration, 65the NOvA Collaboration, 66the NOvA Collaboration, 67the NOvA Collaboration, 68the NOvA Collaboration, 69the NOvA Collaboration, 70the NOvA Collaboration, 71the NOvA Collaboration, 72the NOvA Collaboration, 73the NOvA Collaboration, 74the NOvA Collaboration, 75the NOvA Collaboration, 76the NOvA Collaboration, 77the NOvA 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NOvA Collaboration, 227the NOvA Collaboration, 228the NOvA Collaboration, 229the NOvA Collaboration, 230the NOvA Collaboration, 231the NOvA Collaboration, 232the NOvA Collaboration, 233the NOvA Collaboration, 234the NOvA Collaboration, 235the NOvA Collaboration, 236the NOvA Collaboration, 237the NOvA Collaboration, 238the NOvA Collaboration, 239the NOvA Collaboration, 240the NOvA Collaboration, 241the NOvA Collaboration, 242the NOvA Collaboration, 243the NOvA Collaboration, 244the NOvA Collaboration, 245the NOvA Collaboration, 246the NOvA Collaboration, 247the NOvA Collaboration, 248the NOvA Collaboration, 249the NOvA Collaboration, 250the NOvA Collaboration, 251the NOvA Collaboration, 252the NOvA Collaboration, 253the NOvA Collaboration, 254the NOvA Collaboration, 255the NOvA Collaboration, 256the NOvA Collaboration, 257the NOvA Collaboration, 258the NOvA Collaboration, 259the NOvA Collaboration, 260the NOvA Collaboration

This paper reports the first measurement using the NOvA detectors of $\nu_\mu$ disappearance in a $\nu_\mu$ beam. The analysis uses a 14 kton-equivalent exposure of $2.74 \times 10^{20}$ protons-on-target from the Fermilab NuMI beam. Read More

Many classes of two-dimensional (2D) materials have emerged as potential platforms for novel electronic and optical devices. However, the physical properties are strongly influenced by nanoscale heterogeneities in the form of edges, grain boundaries, and nucleation sites. Using combined tip-enhanced Raman scattering (TERS) and photoluminescence (TEPL) nano-spectroscopy and -imaging, we study the associated effects on the excitonic properties in monolayer WSe2 grown by physical vapor deposition (PVD). Read More

Progress in ultrafast electron microscopy relies on the development of efficient laser-driven electron sources delivering femtosecond electron pulses to the sample. In particular, recent advances employ photoemission from metal nanotips as coherent point-like femtosecond low-energy electron sources. We report the nonlinear emission of ultrashort electron wave packets from a gold nanotip generated by nonlocal excitation and nanofocusing of surface plasmon polaritons. Read More

Six asteroids including two NEAs, one of which is PHA, accessible for observation in September 2012 were investigated using a low-resolution spectrophotometry in the range 0.35-0.90 um with the aim to study features of their reflectance spectra. Read More

Motivated by the problem of Many-Body Localization and the recent numerical results for the level and eigenfunction statistics on the random regular graphs, a generalization of the Rosenzweig-Porter random matrix model is suggested that possesses two localization transitions as the parameter $\gamma$ of the model varies from 0 to $\infty$. One of them is the Anderson transition from the localized to the extended states that happens at $\gamma=2$. The other one at $\gamma=1$ is the transition from the extended non-ergodic (multifractal) states to the extended ergodic states similar to the eigenstates of the Gaussian Orthogonal Ensemble. Read More

We use the currently most complete collection of reliable Cepheid positions (565 stars) out to ~5 kpc based mostly on our photometric data to outline the spiral pattern of our Galaxy. We find the pitch-angle to be equal to 9--10 degrees with the most accurate estimate (i=9.5 +/-0. Read More

The excitonic radiative recombination of intercalated Cl2 molecules for two different polytypes 2H-MoS2 and 3R-MoS2 layered crystals are presented. The structure of the excitonic emission is unique and provides a robust experimental signature of crystal polytype investigated. This result is confirmed by X-ray diffraction analysis and DFT electronic band structure calculations. Read More

Systems driven out of equilibrium experience large fluctuations of the dissipated work. The same is true for wave function amplitudes in disordered systems close to the Anderson localization transition.\cite{Mirlin-review} In both cases the probability distribution function (PDF) is given by the large deviation ansatz. Read More

Statistical analysis of the eigenfunctions of the Anderson tight-binding model with on-site disorder on regular random graphs strongly suggests that the extended states are multifractal at any finite disorder. The spectrum of fractal dimensions $f(\alpha)$ defined in Eq.(3), remains positive for $\alpha$ noticeably far from 1 even when the disorder is several times weaker than the one which leads to the Anderson localization, i. Read More

We introduce a new measure of ergodicity, the support set $S_\varepsilon$, for random wave functions on disordered lattices. It is more sensitive than the traditional inverse participation ratios and their moments in the cases where the extended state is very sparse. We express the typical support set $S_{\varepsilon}$ in terms of the distribution function of the wave function amplitudes and illustrate the scaling of $S_{\varepsilon}\propto N^{\alpha}$ with $N$ (the lattice size) for the most general case of the multi-fractal distribution. Read More

We use UCAC4 proper motions and WISE W1-band apparent magnitudes intensity-mean for almost 400 field RR Lyrae variables to determine the parameters of the velocity distribution of Galactic RR Lyrae population and constrain the zero points of the metallicity- relation and those of the period-metallicity--band and period-metallicity--band luminosity relations via statistical parallax. We find the mean velocities of the halo- and thick-disc RR Lyrae populations in the solar neighbourhood to be (U0(Halo), V0(Halo), W0(Halo)) = (-7 +/- 9, -214 +/- 10, -10 +/- 6) km/s and (U0(Disc), V0(Disc), W0(Disc)) =(-13 +/- 7, -37 +/- 6, -17 +/- 4) km/s, respectively, and the corresponding components of the velocity-dispersion ellipsoids, (sigma VR(Halo), sigma Vphi(Halo), sigma Vtheta(Halo)) = (153 +/- 9, 101 +/- 6, 96 +/- 5) km/s and (sigma VR(Disc), sigma Vphi(Disc), sigma Vtheta(Disc)) = (46 +/- 7, 37 +/- 5, 27 +/- 4) km/s, respectively. The fraction of thick-disc stars is estimated at 0. Read More

We study the relationship between the iron abundance (IA) in red giant branch (RGB) stars and their radial distribution (RD) in Galactic globular clusters (GCs). We relied on publicly available archival data on IA in red giants (RGs) of GCs. We built a sample of ten target GCs in which the number of these RGs exceeded one hundred stars. Read More

We study the interaction driven localization transition, which a recent experiment in Ga_{1-x}Mn_xAs As has shown to come along with multifractal behavior of the local density of states (LDoS) and the intriguing persistence of critical correlations close to the Fermi level. We show that the bulk of these phenomena can be understood within a Hartree-Fock treatment of disordered, Coulomb-interacting spinless fermions. A scaling analysis of the LDoS correlation demonstrates multifractality with correlation dimension d_2=1. Read More

Relaxation of soft modes (e.g. charge density in gated semiconductor heterostructures, spin density in the presence of magnetic field) slowed down by disorder may lead to giant enhancement of energy transfer (cooling power) between overheated electrons and phonons at low bath temperature. Read More

We consider the distribution function $P(|\psi|^{2})$ of the eigenfunction amplitude at the center-of-band (E=0) anomaly in the one-dimensional tight-binding chain with weak uncorrelated on-site disorder (the one-dimensional Anderson model). The special emphasis is on the probability of the anomalously localized states (ALS) with $|\psi|^{2}$ much larger than the inverse typical localization length $\ell_{0}$. Using the solution to the generating function $\Phi_{an}(u,\phi)$ found recently in our works we find the ALS probability distribution $P(|\psi|^{2})$ at $|\psi|^{2}\ell_{0} >> 1$. Read More

We employed the method of virial expansion in order to compute the retarded density correlation function (generalized diffusion propagator) in the critical random matrix ensemble in the limit of strong multifractality. We found that the long-range nature of the Hamiltonian is a common root of both multifractality and Levy flights which show up in the power-law intermediate- and long-distance behavior, respectively, of the density correlation function. We review certain models of classical random walks on fractals and show the similarity of the density correlation function in them to that for the quantum problem described by the random critical long-range Hamiltonians. Read More

We solve the Anderson localization problem on a two-leg ladder by the Fokker-Planck equation approach. The solution is exact in the weak disorder limit at a fixed inter-chain coupling. The study is motivated by progress in investigating the hybrid particles such as cavity polaritons. Read More

2012Jan
Authors: T2K Collaboration, K. Abe, N. Abgrall, Y. Ajima, H. Aihara, J. B. Albert, C. Andreopoulos, B. Andrieu, M. D. Anerella, S. Aoki, O. Araoka, J. Argyriades, A. Ariga, T. Ariga, S. Assylbekov, D. Autiero, A. Badertscher, M. Barbi, G. J. Barker, G. Barr, M. Bass, M. Batkiewicz, F. Bay, S. Bentham, V. Berardi, B. E. Berger, I. Bertram, M. Besnier, J. Beucher, D. Beznosko, S. Bhadra, F. d. M. Blaszczyk, J. Blocki, A. Blondel, C. Bojechko, J. Bouchez, S. B. Boyd, A. Bravar, C. Bronner, D. G. Brook-Roberge, N. Buchanan, H. Budd, R. Calland, D. Calvet, J. Caravaca Rodriguez, S. L. Cartwright, A. Carver, R. Castillo, M. G. Catanesi, A. Cazes, A. Cervera, C. Chavez, S. Choi, G. Christodoulou, J. Coleman, G. Collazuol, W. Coleman, K. Connolly, A. Curioni, A. Dabrowska, I. Danko, R. Das, G. S. Davies, S. Davis, M. Day, G. De Rosa, J. P. A. M. de André, P. de Perio, T. Dealtry, A. Delbart, C. Densham, F. Di Lodovico, S. Di Luise, P. Dinh Tran, J. Dobson, U. Dore, O. Drapier, T. Duboyski, F. Dufour, J. Dumarchez, S. Dytman, M. Dziewiecki, M. Dziomba, S. Emery, A. Ereditato, J. E. Escallier, L. Escudero, L. S. Esposito, M. Fechner, A. Ferrero, A. J. Finch, E. Frank, Y. Fujii, Y. Fukuda, V. Galymov, G. L. Ganetis, F. C. Gannaway, A. Gaudin, A. Gendotti, M. A. George, S. Giffin, C. Giganti, K. Gilje, A. K. Ghosh, T. Golan, M. Goldhaber, J. J. Gomez-Cadenas, S. Gomi, M. Gonin, N. Grant, A. Grant, P. Gumplinger, P. Guzowski, D. R. Hadley, A. Haesler, M. D. Haigh, K. Hamano, C. Hansen, D. Hansen, T. Hara, P. F. Harrison, B. Hartfiel, M. Hartz, T. Haruyama, T. Hasegawa, N. C. Hastings, A. Hatzikoutelis, K. Hayashi, Y. Hayato, C. Hearty, R. L. Helmer, R. Henderson, N. Higashi, J. Hignight, A. Hillairet, T. Hiraki, E. Hirose, J. Holeczek, S. Horikawa, K. Huang, A. Hyndman, A. K. Ichikawa, K. Ieki, M. Ieva, M. Iida, M. Ikeda, J. Ilic, J. Imber, T. Ishida, C. Ishihara, T. Ishii, S. J. Ives, M. Iwasaki, K. Iyogi, A. Izmaylov, B. Jamieson, R. A. Johnson, K. K. Joo, G. V. Jover-Manas, C. K. Jung, H. Kaji, T. Kajita, H. Kakuno, J. Kameda, K. Kaneyuki, D. Karlen, K. Kasami, I. Kato, H. Kawamuko, E. Kearns, M. Khabibullin, F. Khanam, A. Khotjantsev, D. Kielczewska, T. Kikawa, J. Kim, J. Y. Kim, S. B. Kim, N. Kimura, B. Kirby, J. Kisiel, P. Kitching, T. Kobayashi, G. Kogan, S. Koike, A. Konaka, L. L. Kormos, A. Korzenev, K. Koseki, Y. Koshio, Y. Kouzuma, K. Kowalik, V. Kravtsov, I. Kreslo, W. Kropp, H. Kubo, J. Kubota, Y. Kudenko, N. Kulkarni, Y. Kurimoto, R. Kurjata, T. Kutter, J. Lagoda, K. Laihem, A. Laing, M. Laveder, M. Lawe, K. P. Lee, P. T. Le, J. M. Levy, C. Licciardi, I. T. Lim, T. Lindner, C. Lister, R. P. Litchfield, M. Litos, A. Longhin, G. D. Lopez, P. F. Loverre, L. Ludovici, T. Lux, M. Macaire, L. Magaletti, K. Mahn, Y. Makida, M. Malek, S. Manly, A. Marchionni, A. D. Marino, A. J. Marone, J. Marteau, J. F. Martin, T. Maruyama, T. Maryon, J. Marzec, P. Masliah, E. L. Mathie, C. Matsumura, K. Matsuoka, V. Matveev, K. Mavrokoridis, E. Mazzucato, N. McCauley, K. S. McFarland, C. McGrew, T. McLachlan, M. Messina, W. Metcalf, C. Metelko, M. Mezzetto, P. Mijakowski, C. A. Miller, A. Minamino, O. Mineev, S. Mine, A. D. Missert, G. Mituka, M. Miura, K. Mizouchi, L. Monfregola, F. Moreau, B. Morgan, S. Moriyama, A. Muir, A. Murakami, J. F. Muratore, M. Murdoch, S. Murphy, J. Myslik, N. Nagai, T. Nakadaira, M. Nakahata, T. Nakai, K. Nakajima, T. Nakamoto, K. Nakamura, S. Nakayama, T. Nakaya, K. Nakayoshi, D. Naples, M. L. Navin, T. C. Nicholls, B. Nielsen, C. Nielsen, K. Nishikawa, H. Nishino, K. Nitta, T. Nobuhara, J. A. Nowak, Y. Obayashi, T. Ogitsu, H. Ohhata, T. Okamura, K. Okumura, T. Okusawa, S. M. Oser, M. Otani, R. A. Owen, Y. Oyama, T. Ozaki, M. Y. Pac, V. Palladino, V. Paolone, P. Paul, D. Payne, G. F. Pearce, J. D. Perkin, V. Pettinacci, F. Pierre, E. Poplawska, B. Popov, M. Posiadala, J. -M. Poutissou, R. Poutissou, P. Przewlocki, W. Qian, J. L. Raaf, E. Radicioni, P. N. Ratoff, T. M. Raufer, M. Ravonel, M. Raymond, F. Retiere, A. Robert, P. A. Rodrigues, E. Rondio, J. M. Roney, B. Rossi, S. Roth, A. Rubbia, D. Ruterbories, S. Sabouri, R. Sacco, K. Sakashita, F. Sánchez, A. Sarrat, K. Sasaki, K. Scholberg, J. Schwehr, M. Scott, D. I. Scully, Y. Seiya, T. Sekiguchi, H. Sekiya, M. Shibata, Y. Shimizu, M. Shiozawa, S. Short, P. D. Sinclair, M. Siyad, B. M. Smith, R. J. Smith, M. Smy, J. T. Sobczyk, H. Sobel, M. Sorel, A. Stahl, P. Stamoulis, J. Steinmann, B. Still, J. Stone, M. Stodulski, C. Strabel, R. Sulej, A. Suzuki, K. Suzuki, S. Suzuki, S. Y. Suzuki, Y. Suzuki, Y. Suzuki, J. Swierblewski, T. Szeglowski, M. Szeptycka, R. Tacik, M. Tada, M. Taguchi, S. Takahashi, A. Takeda, Y. Takenaga, Y. Takeuchi, K. Tanaka, H. A. Tanaka, M. Tanaka, M. M. Tanaka, N. Tanimoto, K. Tashiro, I. Taylor, A. Terashima, D. Terhorst, R. Terri, L. F. Thompson, A. Thorley, W. Toki, S. Tobayama, T. Tomaru, Y. Totsuka, C. Touramanis, T. Tsukamoto, M. Tzanov, Y. Uchida, K. Ueno, A. Vacheret, M. Vagins, G. Vasseur, O. Veledar, T. Wachala, J. J. Walding, A. V. Waldron, C. W. Walter, P. J. Wanderer, J. Wang, M. A. Ward, G. P. Ward, D. Wark, M. O. Wascko, A. Weber, R. Wendell, N. West, L. H. Whitehead, G. Wikström, R. J. Wilkes, M. J. Wilking, Z. Williamson, J. R. Wilson, R. J. Wilson, T. Wongjirad, S. Yamada, Y. Yamada, A. Yamamoto, K. Yamamoto, Y. Yamanoi, H. Yamaoka, T. Yamauchi, C. Yanagisawa, T. Yano, S. Yen, N. Yershov, M. Yokoyama, T. Yuan, A. Zalewska, J. Zalipska, L. Zambelli, K. Zaremba, M. Ziembicki, E. D. Zimmerman, M. Zito, J. Zmuda

We report a measurement of muon-neutrino disappearance in the T2K experiment. The 295-km muon-neutrino beam from Tokai to Kamioka is the first implementation of the off-axis technique in a long-baseline neutrino oscillation experiment. With data corresponding to 1. Read More

The Pi-Zero detector (P{\O}D) is one of the subdetectors that makes up the off-axis near detector for the Tokai-to-Kamioka (T2K) long baseline neutrino experiment. The primary goal for the P{\O}D is to measure the relevant cross sections for neutrino interactions that generate pi-zero's, especially the cross section for neutral current pi-zero interactions, which are one of the dominant sources of background to the electron neutrino appearance signal in T2K. The P{\O}D is composed of layers of plastic scintillator alternating with water bags and brass sheets or lead sheets and is one of the first detectors to use Multi-Pixel Photon Counters (MPPCs) on a large scale. Read More

2011Nov
Authors: K. Abe, N. Abgrall, Y. Ajima, H. Aihara, J. B. Albert, C. Andreopoulos, B. Andrieu, M. D. Anerella, S. Aoki, O. Araoka, J. Argyriades, A. Ariga, T. Ariga, S. Assylbekov, D. Autiero, A. Badertscher, M. Barbi, G. J. Barker, G. Barr, M. Bass, M. Batkiewicz, F. Bay, S. Bentham, V. Berardi, B. E. Berger, I. Bertram, M. Besnier, J. Beucher, D. Beznosko, S. Bhadra, F. d. M. Blaszczyk, J. Blocki, A. Blondel, C. Bojechko, J. Bouchez, S. B. Boyd, A. Bravar, C. Bronner, D. G. Brook-Roberge, N. Buchanan, H. Budd, D. Calvet, S. L. Cartwright, A. Carver, R. Castillo, M. G. Catanesi, A. Cazes, A. Cervera, C. Chavez, S. Choi, G. Christodoulou, J. Coleman, G. Collazuol, W. Coleman, K. Connolly, A. Curioni, A. Dabrowska, I. Danko, R. Das, G. S. Davies, S. Davis, M. Day, G. De Rosa, J. P. A. M. de André, P. de Perio, T. Dealtry, A. Delbart, C. Densham, F. Di Lodovico, S. Di Luise, P. Dinh Tran, J. Dobson, U. Dore, O. Drapier, F. Dufour, J. Dumarchez, S. Dytman, M. Dziewiecki, M. Dziomba, S. Emery, A. Ereditato, J. E. Escallier, L. Escudero, L. S. Esposito, M. Fechner, A. Ferrero, A. J. Finch, E. Frank, Y. Fujii, Y. Fukuda, V. Galymov, G. L. Ganetis, F. C. Gannaway, A. Gaudin, A. Gendotti, M. George, S. Giffin, C. Giganti, K. Gilje, A. K. Ghosh, T. Golan, M. Goldhaber, J. J. Gomez-Cadenas, S. Gomi, M. Gonin, N. Grant, A. Grant, P. Gumplinger, P. Guzowski, A. Haesler, M. D. Haigh, K. Hamano, C. Hansen, D. Hansen, T. Hara, P. F. Harrison, B. Hartfiel, M. Hartz, T. Haruyama, T. Hasegawa, N. C. Hastings, A. Hatzikoutelis, K. Hayashi, Y. Hayato, C. Hearty, R. L. Helmer, R. Henderson, N. Higashi, J. Hignight, A. Hillairet, E. Hirose, J. Holeczek, S. Horikawa, A. Hyndman, A. K. Ichikawa, K. Ieki, M. Ieva, M. Iida, M. Ikeda, J. Ilic, J. Imber, T. Ishida, C. Ishihara, T. Ishii, S. J. Ives, M. Iwasaki, K. Iyogi, A. Izmaylov, B. Jamieson, R. A. Johnson, K. K. Joo, G. V. Jover-Manas, C. K. Jung, H. Kaji, T. Kajita, H. Kakuno, J. Kameda, K. Kaneyuki, D. Karlen, K. Kasami, I. Kato, H. Kawamuko, E. Kearns, M. Khabibullin, F. Khanam, A. Khotjantsev, D. Kielczewska, T. Kikawa, J. Kim, J. Y. Kim, S. B. Kim, N. Kimura, B. Kirby, J. Kisiel, P. Kitching, T. Kobayashi, G. Kogan, S. Koike, A. Konaka, L. L. Kormos, A. Korzenev, K. Koseki, Y. Koshio, Y. Kouzuma, K. Kowalik, V. Kravtsov, I. Kreslo, W. Kropp, H. Kubo, J. Kubota, Y. Kudenko, N. Kulkarni, Y. Kurimoto, R. Kurjata, T. Kutter, J. Lagoda, K. Laihem, M. Laveder, K. P. Lee, P. T. Le, J. M. Levy, C. Licciardi, I. T. Lim, T. Lindner, R. P. Litchfield, M. Litos, A. Longhin, G. D. Lopez, P. F. Loverre, L. Ludovici, T. Lux, M. Macaire, K. Mahn, Y. Makida, M. Malek, S. Manly, A. Marchionni, A. D. Marino, A. J. Marone, J. Marteau, J. F. Martin, T. Maruyama, T. Maryon, J. Marzec, P. Masliah, E. L. Mathie, C. Matsumura, K. Matsuoka, V. Matveev, K. Mavrokoridis, E. Mazzucato, N. McCauley, K. S. McFarland, C. McGrew, T. McLachlan, M. Messina, W. Metcalf, C. Metelko, M. Mezzetto, P. Mijakowski, C. A. Miller, A. Minamino, O. Mineev, S. Mine, A. D. Missert, G. Mituka, M. Miura, K. Mizouchi, L. Monfregola, F. Moreau, B. Morgan, S. Moriyama, A. Muir, A. Murakami, J. F. Muratore, M. Murdoch, S. Murphy, J. Myslik, N. Nagai, T. Nakadaira, M. Nakahata, T. Nakai, K. Nakajima, T. Nakamoto, K. Nakamura, S. Nakayama, T. Nakaya, D. Naples, M. L. Navin, B. Nelson, T. C. Nicholls, C. Nielsen, K. Nishikawa, H. Nishino, K. Nitta, T. Nobuhara, J. A. Nowak, Y. Obayashi, T. Ogitsu, H. Ohhata, T. Okamura, K. Okumura, T. Okusawa, S. M. Oser, M. Otani, R. A. Owen, Y. Oyama, T. Ozaki, M. Y. Pac, V. Palladino, V. Paolone, P. Paul, D. Payne, G. F. Pearce, J. D. Perkin, V. Pettinacci, F. Pierre, E. Poplawska, B. Popov, M. Posiadala, J. -M. Poutissou, R. Poutissou, P. Przewlocki, W. Qian, J. L. Raaf, E. Radicioni, P. N. Ratoff, T. M. Raufer, M. Ravonel, M. Raymond, F. Retiere, A. Robert, P. A. Rodrigues, E. Rondio, J. M. Roney, B. Rossi, S. Roth, A. Rubbia, D. Ruterbories, S. Sabouri, R. Sacco, K. Sakashita, F. Sánchez, A. Sarrat, K. Sasaki, K. Scholberg, J. Schwehr, M. Scott, D. I. Scully, Y. Seiya, T. Sekiguchi, H. Sekiya, M. Shibata, Y. Shimizu, M. Shiozawa, S. Short, M. Siyad, R. J. Smith, M. Smy, J. T. Sobczyk, H. Sobel, M. Sorel, A. Stahl, P. Stamoulis, J. Steinmann, B. Still, J. Stone, M. Stodulski, C. Strabel, R. Sulej, A. Suzuki, K. Suzuki, S. Suzuki, S. Y. Suzuki, Y. Suzuki, Y. Suzuki, J. Swierblewski, T. Szeglowski, M. Szeptycka, R. Tacik, M. Tada, M. Taguchi, S. Takahashi, A. Takeda, Y. Takenaga, Y. Takeuchi, K. Tanaka, H. A. Tanaka, M. Tanaka, M. M. Tanaka, N. Tanimoto, K. Tashiro, I. Taylor, A. Terashima, D. Terhorst, R. Terri, L. F. Thompson, A. Thorley, W. Toki, S. Tobayama, T. Tomaru, Y. Totsuka, C. Touramanis, T. Tsukamoto, M. Tzanov, Y. Uchida, K. Ueno, A. Vacheret, M. Vagins, G. Vasseur, T. Wachala, J. J. Walding, A. V. Waldron, C. W. Walter, P. J. Wanderer, J. Wang, M. A. Ward, G. P. Ward, D. Wark, M. O. Wascko, A. Weber, R. Wendell, N. West, L. H. Whitehead, G. Wikström, R. J. Wilkes, M. J. Wilking, Z. Williamson, J. R. Wilson, R. J. Wilson, T. Wongjirad, S. Yamada, Y. Yamada, A. Yamamoto, K. Yamamoto, Y. Yamanoi, H. Yamaoka, T. Yamauchi, C. Yanagisawa, T. Yano, S. Yen, N. Yershov, M. Yokoyama, T. Yuan, A. Zalewska, J. Zalipska, L. Zambelli, K. Zaremba, M. Ziembicki, E. D. Zimmerman, M. Zito, J. Zmuda

Precise measurement of neutrino beam direction and intensity was achieved based on a new concept with modularized neutrino detectors. INGRID (Interactive Neutrino GRID) is an on-axis near detector for the T2K long baseline neutrino oscillation experiment. INGRID consists of 16 identical modules arranged in horizontal and vertical arrays around the beam center. Read More

We present new data for the polarization observables of the final state proton in the $^{1}H(\vec{\gamma},\vec{p})\pi^{0}$ reaction. These data can be used to test predictions based on hadron helicity conservation (HHC) and perturbative QCD (pQCD). These data have both small statistical and systematic uncertainties, and were obtained with beam energies between 1. Read More

We have shown that in systems where the Coulomb interaction is strongly suppressed, the superconducting transition temperature may be enhanced by disorder close to the Anderson localization transition. This phenomenon is based on the enhancement by disorder of the matrix element of attraction in the Cooper channel. For enhancement to take place one needs (i) strong disorder which makes the single-particle wave functions strongly inhomogeneous in space and (ii) strong correlation of the patterns of inhomogeneity for different wavefunctions. Read More

2011Jun
Authors: T2K Collaboration, K. Abe1, N. Abgrall2, Y. Ajima3, H. Aihara4, J. B. Albert5, C. Andreopoulos6, B. Andrieu7, S. Aoki8, O. Araoka9, J. Argyriades10, A. Ariga11, T. Ariga12, S. Assylbekov13, D. Autiero14, A. Badertscher15, M. Barbi16, G. J. Barker17, G. Barr18, M. Bass19, F. Bay20, S. Bentham21, V. Berardi22, B. E. Berger23, I. Bertram24, M. Besnier25, J. Beucher26, D. Beznosko27, S. Bhadra28, F. d. M. Blaszczyk29, A. Blondel30, C. Bojechko31, J. Bouchez32, S. B. Boyd33, A. Bravar34, C. Bronner35, D. G. Brook-Roberge36, N. Buchanan37, H. Budd38, D. Calvet39, S. L. Cartwright40, A. Carver41, R. Castillo42, M. G. Catanesi43, A. Cazes44, A. Cervera45, C. Chavez46, S. Choi47, G. Christodoulou48, J. Coleman49, W. Coleman50, G. Collazuol51, K. Connolly52, A. Curioni53, A. Dabrowska54, I. Danko55, R. Das56, G. S. Davies57, S. Davis58, M. Day59, G. DeRosa60, J. P. A. M. de Andre61, P. dePerio62, A. Delbart63, C. Densham64, F. DiLodovico65, S. DiLuise66, P. Dinh Tran67, J. Dobson68, U. Dore69, O. Drapier70, F. Dufour71, J. Dumarchez72, S. Dytman73, M. Dziewiecki74, M. Dziomba75, S. Emery76, A. Ereditato77, L. Escudero78, L. S. Esposito79, M. Fechner80, A. Ferrero81, A. J. Finch82, E. Frank83, Y. Fujii84, Y. Fukuda85, V. Galymov86, F. C. Gannaway87, A. Gaudin88, A. Gendotti89, M. George90, S. Giffin91, C. Giganti92, K. Gilje93, T. Golan94, M. Goldhaber95, J. J. Gomez-Cadenas96, M. Gonin97, N. Grant98, A. Grant99, P. Gumplinger100, P. Guzowski101, A. Haesler102, M. D. Haigh103, K. Hamano104, C. Hansen105, D. Hansen106, T. Hara107, P. F. Harrison108, B. Hartfiel109, M. Hartz110, T. Haruyama111, T. Hasegawa112, N. C. Hastings113, S. Hastings114, A. Hatzikoutelis115, K. Hayashi116, Y. Hayato117, C. Hearty118, R. L. Helmer119, R. Henderson120, N. Higashi121, J. Hignight122, E. Hirose123, J. Holeczek124, S. Horikawa125, A. Hyndman126, A. K. Ichikawa127, K. Ieki128, M. Ieva129, M. Iida130, M. Ikeda131, J. Ilic132, J. Imber133, T. Ishida134, C. Ishihara135, T. Ishii136, S. J. Ives137, M. Iwasaki138, K. Iyogi139, A. Izmaylov140, B. Jamieson141, R. A. Johnson142, K. K. Joo143, G. V. Jover-Manas144, C. K. Jung145, H. Kaji146, T. Kajita147, H. Kakuno148, J. Kameda149, K. Kaneyuki150, D. Karlen151, K. Kasami152, I. Kato153, E. Kearns154, M. Khabibullin155, F. Khanam156, A. Khotjantsev157, D. Kielczewska158, T. Kikawa159, J. Kim160, J. Y. Kim161, S. B. Kim162, N. Kimura163, B. Kirby164, J. Kisiel165, P. Kitching166, T. Kobayashi167, G. Kogan168, S. Koike169, A. Konaka170, L. L. Kormos171, A. Korzenev172, K. Koseki173, Y. Koshio174, Y. Kouzuma175, K. Kowalik176, V. Kravtsov177, I. Kreslo178, W. Kropp179, H. Kubo180, Y. Kudenko181, N. Kulkarni182, R. Kurjata183, T. Kutter184, J. Lagoda185, K. Laihem186, M. Laveder187, K. P. Lee188, P. T. Le189, J. M. Levy190, C. Licciardi191, I. T. Lim192, T. Lindner193, R. P. Litchfield194, M. Litos195, A. Longhin196, G. D. Lopez197, P. F. Loverre198, L. Ludovici199, T. Lux200, M. Macaire201, K. Mahn202, Y. Makida203, M. Malek204, S. Manly205, A. Marchionni206, A. D. Marino207, J. Marteau208, J. F. Martin209, T. Maruyama210, T. Maryon211, J. Marzec212, P. Masliah213, E. L. Mathie214, C. Matsumura215, K. Matsuoka216, V. Matveev217, K. Mavrokoridis218, E. Mazzucato219, N. McCauley220, K. S. McFarland221, C. McGrew222, T. McLachlan223, M. Messina224, W. Metcalf225, C. Metelko226, M. Mezzetto227, P. Mijakowski228, C. A. Miller229, A. Minamino230, O. Mineev231, S. Mine232, A. D. Missert233, G. Mituka234, M. Miura235, K. Mizouchi236, L. Monfregola237, F. Moreau238, B. Morgan239, S. Moriyama240, A. Muir241, A. Murakami242, M. Murdoch243, S. Murphy244, J. Myslik245, T. Nakadaira246, M. Nakahata247, T. Nakai248, K. Nakajima249, T. Nakamoto250, K. Nakamura251, S. Nakayama252, T. Nakaya253, D. Naples254, M. L. Navin255, B. Nelson256, T. C. Nicholls257, K. Nishikawa258, H. Nishino259, J. A. Nowak260, M. Noy261, Y. Obayashi262, T. Ogitsu263, H. Ohhata264, T. Okamura265, K. Okumura266, T. Okusawa267, S. M. Oser268, M. Otani269, R. A. Owen270, Y. Oyama271, T. Ozaki272, M. Y. Pac273, V. Palladino274, V. Paolone275, P. Paul276, D. Payne277, G. F. Pearce278, J. D. Perkin279, V. Pettinacci280, F. Pierre281, E. Poplawska282, B. Popov283, M. Posiadala284, J. -M. Poutissou285, R. Poutissou286, P. Przewlocki287, W. Qian288, J. L. Raaf289, E. Radicioni290, P. N. Ratoff291, T. M. Raufer292, M. Ravonel293, M. Raymond294, F. Retiere295, A. Robert296, P. A. Rodrigues297, E. Rondio298, J. M. Roney299, B. Rossi300, S. Roth301, A. Rubbia302, D. Ruterbories303, S. Sabouri304, R. Sacco305, K. Sakashita306, F. Sanchez307, A. Sarrat308, K. Sasaki309, K. Scholberg310, J. Schwehr311, M. Scott312, D. I. Scully313, Y. Seiya314, T. Sekiguchi315, H. Sekiya316, M. Shibata317, Y. Shimizu318, M. Shiozawa319, S. Short320, M. Syiad321, R. J. Smith322, M. Smy323, J. T. Sobczyk324, H. Sobel325, M. Sorel326, A. Stahl327, P. Stamoulis328, J. Steinmann329, B. Still330, J. Stone331, C. Strabel332, L. R. Sulak333, R. Sulej334, P. Sutcliffe335, A. Suzuki336, K. Suzuki337, S. Suzuki338, S. Y. Suzuki339, Y. Suzuki340, Y. Suzuki341, T. Szeglowski342, M. Szeptycka343, R. Tacik344, M. Tada345, S. Takahashi346, A. Takeda347, Y. Takenaga348, Y. Takeuchi349, K. Tanaka350, H. A. Tanaka351, M. Tanaka352, M. M. Tanaka353, N. Tanimoto354, K. Tashiro355, I. Taylor356, A. Terashima357, D. Terhorst358, R. Terri359, L. F. Thompson360, A. Thorley361, W. Toki362, T. Tomaru363, Y. Totsuka364, C. Touramanis365, T. Tsukamoto366, M. Tzanov367, Y. Uchida368, K. Ueno369, A. Vacheret370, M. Vagins371, G. Vasseur372, T. Wachala373, J. J. Walding374, A. V. Waldron375, C. W. Walter376, P. J. Wanderer377, J. Wang378, M. A. Ward379, G. P. Ward380, D. Wark381, M. O. Wascko382, A. Weber383, R. Wendell384, N. West385, L. H. Whitehead386, G. Wikstrom387, R. J. Wilkes388, M. J. Wilking389, J. R. Wilson390, R. J. Wilson391, T. Wongjirad392, S. Yamada393, Y. Yamada394, A. Yamamoto395, K. Yamamoto396, Y. Yamanoi397, H. Yamaoka398, C. Yanagisawa399, T. Yano400, S. Yen401, N. Yershov402, M. Yokoyama403, A. Zalewska404, J. Zalipska405, L. Zambelli406, K. Zaremba407, M. Ziembicki408, E. D. Zimmerman409, M. Zito410, J. Zmuda411
Affiliations: 1University of Tokyo, 2University of Geneva, 3High Energy Accelerator Research Organization, 4University of Tokyo, 5Duke University, 6STFC Rutherford Appleton Laboratory, 7UPMC, Universite Paris Diderot, 8Kobe University, 9High Energy Accelerator Research Organization, 10University of Geneva, 11University of Bern, 12University of Bern, 13Colorado State University, 14Universite de Lyon, 15ETH Zurich, 16University of Regina, 17University of Warwick, 18Oxford University, 19Colorado State University, 20University of Bern, 21Lancaster University, 22INFN Sezione di Bari and Universita` e Politecnico di Bari, 23Colorado State University, 24Lancaster University, 25Ecole Polytechnique IN2P3-CNRS, 26IRFU CEA Saclay, 27State University of New York at Stony Brook, 28York University, 29IRFU CEA Saclay, 30University of Geneva, 31University of Victoria, 328, deceased, 33University of Warwick, 34University of Geneva, 35Ecole Polytechnique IN2P3-CNRS, 36University of British Columbia, 37Colorado State University, 38University of Rochester, 39IRFU CEA Saclay, 40University of Sheffield, 41University of Warwick, 42Institut de Fisica d'Altes Energies, 43INFN Sezione di Bari and Universita` e Politecnico di Bari, 44Universite de Lyon, 45IFIC, 46University of Liverpool, 47Seoul National University, 48University of Liverpool, 49University of Liverpool, 50Louisiana State University, 51INFN Sezione di Padova and Universit`a di Padova, 52University of Washington, 53ETH Zurich, 54H. Niewodniczanski Institute of Nuclear Physics PAN, 55University of Pittsburgh, 56Colorado State University, 57Lancaster University, 58University of Washington, 59University of Rochester, 60INFN Sezione di Napoli and Universita` di Napoli, 61Ecole Polytechnique IN2P3-CNRS, 62University of Toronto, 63IRFU CEA Saclay, 64STFC Rutherford Appleton Laboratory, 65Queen Mary University of London, 66ETH Zurich, 67Ecole Polytechnique IN2P3-CNRS, 68Imperial College London, 69INFN Sezione di Roma and Universit`a di Roma "La Sapienza", 70Ecole Polytechnique IN2P3-CNRS, 71University of Geneva, 72UPMC, Universite Paris Diderot, 73University of Pittsburgh, 74Warsaw University of Technology, 75University of Washington, 76IRFU CEA Saclay, 77University of Bern, 78IFIC, 79ETH Zurich, 80Duke University, 81University of Geneva, 82Lancaster University, 83University of Bern, 84High Energy Accelerator Research Organization, 85Miyagi University of Education, 86York University, 87Queen Mary University of London, 88University of Victoria, 89ETH Zurich, 90Queen Mary University of London, 91University of Regina, 92Institut de Fisica d'Altes Energies, 93State University of New York at Stony Brook, 94Wroclaw University, 956, deceased, 96IFIC, 97Ecole Polytechnique IN2P3-CNRS, 98Lancaster University, 99STFC Daresbury Laboratory, 100TRIUMF, 101Imperial College London, 102University of Geneva, 103Oxford University, 104TRIUMF, 105IFIC, 106University of Pittsburgh, 107Kobe University, 108University of Warwick, 109Louisiana State University, 110York University, 111High Energy Accelerator Research Organization, 112High Energy Accelerator Research Organization, 113University of Regina, 114University of British Columbia, 115Lancaster University, 116High Energy Accelerator Research Organization, 117University of Tokyo, 118University of British Columbia, 119TRIUMF, 120TRIUMF, 121High Energy Accelerator Research Organization, 122State University of New York at Stony Brook, 123High Energy Accelerator Research Organization, 124University of Silesia, 125ETH Zurich, 126Queen Mary University of London, 127Kyoto University, 128Kyoto University, 129Institut de Fisica d'Altes Energies, 130High Energy Accelerator Research Organization, 131Kyoto University, 132STFC Rutherford Appleton Laboratory, 133State University of New York at Stony Brook, 134High Energy Accelerator Research Organization, 135University of Tokyo, 136High Energy Accelerator Research Organization, 137Imperial College London, 138University of Tokyo, 139University of Tokyo, 140Institute for Nuclear Research of the Russian Academy of Sciences, 141University of British Columbia, 142University of Colorado at Boulder, 143Chonnam National University, 144Institut de Fisica d'Altes Energies, 145State University of New York at Stony Brook, 146University of Tokyo, 147University of Tokyo, 148University of Tokyo, 149University of Tokyo, 15050, deceased, 151University of Victoria, 152High Energy Accelerator Research Organization, 153TRIUMF, 154Boston University, 155Institute for Nuclear Research of the Russian Academy of Sciences, 156Colorado State University, 157Institute for Nuclear Research of the Russian Academy of Sciences, 158University of Warsaw, 159Kyoto University, 160University of British Columbia, 161Chonnam National University, 162Seoul National University, 163High Energy Accelerator Research Organization, 164University of British Columbia, 165University of Silesia, 166University of Alberta, 167High Energy Accelerator Research Organization, 168Imperial College London, 169High Energy Accelerator Research Organization, 170TRIUMF, 171Lancaster University, 172University of Geneva, 173High Energy Accelerator Research Organization, 174University of Tokyo, 175University of Tokyo, 176The Andrzej Soltan Institute for Nuclear Studies, 177Colorado State University, 178University of Bern, 179University of California, 180Kyoto University, 181Institute for Nuclear Research of the Russian Academy of Sciences, 182Louisiana State University, 183Warsaw University of Technology, 184Louisiana State University, 185The Andrzej Soltan Institute for Nuclear Studies, 186RWTH Aachen University, 187INFN Sezione di Padova and Universit`a di Padova, 188University of Tokyo, 189State University of New York at Stony Brook, 190UPMC, Universite Paris Diderot, 191University of Regina, 192Chonnam National University, 193University of British Columbia, 194University of Warwick, 195Boston University, 196IRFU CEA Saclay, 197State University of New York at Stony Brook, 198INFN Sezione di Roma and Universit`a di Roma "La Sapienza", 199INFN Sezione di Roma and Universit`a di Roma "La Sapienza", 200Institut de Fisica d'Altes Energies, 201IRFU CEA Saclay, 202TRIUMF, 203High Energy Accelerator Research Organization, 204Imperial College London, 205University of Rochester, 206ETH Zurich, 207University of Colorado at Boulder, 208Universite de Lyon, 209University of Toronto, 210High Energy Accelerator Research Organization, 211Lancaster University, 212Warsaw University of Technology, 213Imperial College London, 214University of Regina, 215Osaka City University, Department of Physics, 216Kyoto University, 217Institute for Nuclear Research of the Russian Academy of Sciences, 218University of Liverpool, 219IRFU CEA Saclay, 220University of Liverpool, 221University of Rochester, 222State University of New York at Stony Brook, 223University of Tokyo, 224University of Bern, 225Louisiana State University, 226STFC Rutherford Appleton Laboratory, 227INFN Sezione di Padova and Universit`a di Padova, 228The Andrzej Soltan Institute for Nuclear Studies, 229TRIUMF, 230Kyoto University, 231Institute for Nuclear Research of the Russian Academy of Sciences, 232University of California, 233University of Colorado at Boulder, 234University of Tokyo, 235University of Tokyo, 236TRIUMF, 237IFIC, 238Ecole Polytechnique IN2P3-CNRS, 239University of Warwick, 240University of Tokyo, 241STFC Daresbury Laboratory, 242Kyoto University, 243University of Liverpool, 244University of Geneva, 245University of Victoria, 246High Energy Accelerator Research Organization, 247University of Tokyo, 248Osaka City University, Department of Physics, 249Osaka City University, Department of Physics, 250High Energy Accelerator Research Organization, 251High Energy Accelerator Research Organization, 252University of Tokyo, 253Kyoto University, 254University of Pittsburgh, 255University of Sheffield, 256State University of New York at Stony Brook, 257STFC Rutherford Appleton Laboratory, 258High Energy Accelerator Research Organization, 259University of Tokyo, 260Louisiana State University, 261Imperial College London, 262University of Tokyo, 263High Energy Accelerator Research Organization, 264High Energy Accelerator Research Organization, 265High Energy Accelerator Research Organization, 266University of Tokyo, 267Osaka City University, Department of Physics, 268University of British Columbia, 269Kyoto University, 270Queen Mary University of London, 271High Energy Accelerator Research Organization, 272Osaka City University, Department of Physics, 273Dongshin University, 274INFN Sezione di Napoli and Universita` di Napoli, 275University of Pittsburgh, 276State University of New York at Stony Brook, 277University of Liverpool, 278STFC Rutherford Appleton Laboratory, 279University of Sheffield, 280ETH Zurich, 2818, deceased, 282Queen Mary University of London, 283UPMC, Universite Paris Diderot, 284University of Warsaw, 285TRIUMF, 286TRIUMF, 287The Andrzej Soltan Institute for Nuclear Studies, 288STFC Rutherford Appleton Laboratory, 289Boston University, 290INFN Sezione di Bari and Universita` e Politecnico di Bari, 291Lancaster University, 292STFC Rutherford Appleton Laboratory, 293University of Geneva, 294Imperial College London, 295TRIUMF, 296UPMC, Universite Paris Diderot, 297University of Rochester, 298The Andrzej Soltan Institute for Nuclear Studies, 299University of Victoria, 300University of Bern, 301RWTH Aachen University, 302ETH Zurich, 303Colorado State University, 304University of British Columbia, 305Queen Mary University of London, 306High Energy Accelerator Research Organization, 307Institut de Fisica d'Altes Energies, 308IRFU CEA Saclay, 309High Energy Accelerator Research Organization, 310Duke University, 311Colorado State University, 312Imperial College London, 313University of Warwick, 314Osaka City University, Department of Physics, 315High Energy Accelerator Research Organization, 316University of Tokyo, 317High Energy Accelerator Research Organization, 318University of Tokyo, 319University of Tokyo, 320Imperial College London, 321STFC Rutherford Appleton Laboratory, 322Oxford University, 323University of California, 324Wroclaw University, 325University of California, 326IFIC, 327RWTH Aachen University, 328IFIC, 329RWTH Aachen University, 330Queen Mary University of London, 331Boston University, 332ETH Zurich, 333Boston University, 334The Andrzej Soltan Institute for Nuclear Studies, 335University of Liverpool, 336Kobe University, 337Kyoto University, 338High Energy Accelerator Research Organization, 339High Energy Accelerator Research Organization, 340High Energy Accelerator Research Organization, 341High Energy Accelerator Research Organization, 342University of Silesia, 343The Andrzej Soltan Institute for Nuclear Studies, 344University of Regina, 345High Energy Accelerator Research Organization, 346Kyoto University, 347University of Tokyo, 348University of Tokyo, 349Kobe University, 350High Energy Accelerator Research Organization, 351University of British Columbia, 352High Energy Accelerator Research Organization, 353High Energy Accelerator Research Organization, 354University of Tokyo, 355Osaka City University, Department of Physics, 356State University of New York at Stony Brook, 357High Energy Accelerator Research Organization, 358RWTH Aachen University, 359Queen Mary University of London, 360University of Sheffield, 361University of Liverpool, 362Colorado State University, 363High Energy Accelerator Research Organization, 36418, deceased, 365University of Liverpool, 366High Energy Accelerator Research Organization, 367Louisiana State University, 368Imperial College London, 369University of Tokyo, 370Imperial College London, 371University of California, 372IRFU CEA Saclay, 373H. Niewodniczanski Institute of Nuclear Physics PAN, 374Imperial College London, 375Oxford University, 376Duke University, 377Brookhaven National Laboratory, 378University of Tokyo, 379University of Sheffield, 380University of Sheffield, 381STFC Rutherford Appleton Laboratory, 382Imperial College London, 383Oxford University, 384Duke University, 385Oxford University, 386University of Warwick, 387University of Geneva, 388University of Washington, 389TRIUMF, 390Queen Mary University of London, 391Colorado State University, 392Duke University, 393University of Tokyo, 394High Energy Accelerator Research Organization, 395High Energy Accelerator Research Organization, 396Osaka City University, Department of Physics, 397High Energy Accelerator Research Organization, 398High Energy Accelerator Research Organization, 399State University of New York at Stony Brook, 400Kobe University, 401TRIUMF, 402Institute for Nuclear Research of the Russian Academy of Sciences, 403University of Tokyo, 404H. Niewodniczanski Institute of Nuclear Physics PAN, 405University of British Columbia, 406UPMC, Universite Paris Diderot, 407Warsaw University of Technology, 408Warsaw University of Technology, 409University of Colorado at Boulder, 410IRFU CEA Saclay, 411Wroclaw University

The T2K experiment observes indications of $\nu_\mu\rightarrow \nu_e$ appearance in data accumulated with $1.43\times10^{20}$ protons on target. Six events pass all selection criteria at the far detector. Read More

2011Jun
Authors: T2K Collaboration, N. Abgrall1, H. Aihara2, Y. Ajima3, J. B. Albert4, D. Allan5, P. -A. Amaudruz6, C. Andreopoulos7, B. Andrieu8, M. D. Anerella9, C. Angelsen10, S. Aoki11, O. Araoka12, J. Argyriades13, A. Ariga14, T. Ariga15, S. Assylbekov16, J. P. A. M. de André17, D. Autiero18, A. Badertscher19, O. Ballester20, M. Barbi21, G. J. Barker22, P. Baron23, G. Barr24, L. Bartoszek25, M. Batkiewicz26, F. Bay27, S. Bentham28, V. Berardi29, B. E. Berger30, H. Berns31, I. Bertram32, M. Besnier33, J. Beucher34, D. Beznosko35, S. Bhadra36, P. Birney37, D. Bishop38, E. Blackmore39, F. d. M. Blaszczyk40, J. Blocki41, A. Blondel42, A. Bodek43, C. Bojechko44, J. Bouchez45, T. Boussuge46, S. B. Boyd47, M. Boyer48, N. Braam49, R. Bradford50, A. Bravar51, K. Briggs52, J. D. Brinson53, C. Bronner54, D. G. Brook-Roberge55, M. Bryant56, N. Buchanan57, H. Budd58, M. Cadabeschi59, R. G. Calland60, D. Calvet61, J. Caravaca Rodríguez62, J. Carroll63, S. L. Cartwright64, A. Carver65, R. Castillo66, M. G. Catanesi67, C. Cavata68, A. Cazes69, A. Cervera70, J. P. Charrier71, C. Chavez72, S. Choi73, S. Chollet74, G. Christodoulou75, P. Colas76, J. Coleman77, W. Coleman78, G. Collazuol79, K. Connolly80, P. Cooke81, A. Curioni82, A. Dabrowska83, I. Danko84, R. Das85, G. S. Davies86, S. Davis87, M. Day88, X. De La Broise89, P. de Perio90, G. De Rosa91, T. Dealtry92, A. Debraine93, E. Delagnes94, A. Delbart95, C. Densham96, F. Di Lodovico97, S. Di Luise98, P. Dinh Tran99, J. Dobson100, J. Doornbos101, U. Dore102, O. Drapier103, F. Druillole104, F. Dufour105, J. Dumarchez106, T. Durkin107, S. Dytman108, M. Dziewiecki109, M. Dziomba110, B. Ellison111, S. Emery112, A. Ereditato113, J. E. Escallier114, L. Escudero115, L. S. Esposito116, W. Faszer117, M. Fechner118, A. Ferrero119, A. Finch120, C. Fisher121, M. Fitton122, R. Flight123, D. Forbush124, E. Frank125, K. Fransham126, Y. Fujii127, Y. Fukuda128, M. Gallop129, V. Galymov130, G. L. Ganetis131, F. C. Gannaway132, A. Gaudin133, J. Gaweda134, A. Gendotti135, M. George136, S. Giffin137, C. Giganti138, K. Gilje139, I. Giomataris140, J. Giraud141, A. K. Ghosh142, T. Golan143, M. Goldhaber144, J. J. Gomez-Cadenas145, S. Gomi146, M. Gonin147, M. Goyette148, A. Grant149, N. Grant150, F. Grañena151, S. Greenwood152, P. Gumplinger153, P. Guzowski154, M. D. Haigh155, K. Hamano156, C. Hansen157, T. Hara158, P. F. Harrison159, B. Hartfiel160, M. Hartz161, T. Haruyama162, R. Hasanen163, T. Hasegawa164, N. C. Hastings165, S. Hastings166, A. Hatzikoutelis167, K. Hayashi168, Y. Hayato169, T. D. J. Haycock170, C. Hearty171, R. L. Helmer172, R. Henderson173, S. Herlant174, N. Higashi175, J. Hignight176, K. Hiraide177, E. Hirose178, J. Holeczek179, N. Honkanen180, S. Horikawa181, A. Hyndman182, A. K. Ichikawa183, K. Ieki184, M. Ieva185, M. Iida186, M. Ikeda187, J. Ilic188, J. Imber189, T. Ishida190, C. Ishihara191, T. Ishii192, S. J. Ives193, M. Iwasaki194, K. Iyogi195, A. Izmaylov196, B. Jamieson197, R. A. Johnson198, K. K. Joo199, G. Jover-Manas200, C. K. Jung201, H. Kaji202, T. Kajita203, H. Kakuno204, J. Kameda205, K. Kaneyuki206, D. Karlen207, K. Kasami208, V. Kasey209, I. Kato210, H. Kawamuko211, E. Kearns212, L. Kellet213, M. Khabibullin214, M. Khaleeq215, N. Khan216, A. Khotjantsev217, D. Kielczewska218, T. Kikawa219, J. Y. Kim220, S. -B. Kim221, N. Kimura222, B. Kirby223, J. Kisiel224, P. Kitching225, T. Kobayashi226, G. Kogan227, S. Koike228, T. Komorowski229, A. Konaka230, L. L. Kormos231, A. Korzenev232, K. Koseki233, Y. Koshio234, Y. Kouzuma235, K. Kowalik236, V. Kravtsov237, I. Kreslo238, W. Kropp239, H. Kubo240, J. Kubota241, Y. Kudenko242, N. Kulkarni243, L. Kurchaninov244, Y. Kurimoto245, R. Kurjata246, Y. Kurosawa247, T. Kutter248, J. Lagoda249, K. Laihem250, R. Langstaff251, M. Laveder252, T. B. Lawson253, P. T. Le254, A. Le Coguie255, M. Le Ross256, K. P. Lee257, M. Lenckowski258, C. Licciardi259, I. T. Lim260, T. Lindner261, R. P. Litchfield262, A. Longhin263, G. D. Lopez264, P. Lu265, L. Ludovici266, T. Lux267, M. Macaire268, L. Magaletti269, K. Mahn270, Y. Makida271, C. J. Malafis272, M. Malek273, S. Manly274, A. Marchionni275, C. Mark276, A. D. Marino277, A. J. Marone278, J. Marteau279, J. F. Martin280, T. Maruyama281, T. Maryon282, J. Marzec283, P. Masliah284, E. L. Mathie285, C. Matsumura286, K. Matsuoka287, V. Matveev288, K. Mavrokoridis289, E. Mazzucato290, N. McCauley291, K. S. McFarland292, C. McGrew293, T. McLachlan294, I. Mercer295, M. Messina296, W. Metcalf297, C. Metelko298, M. Mezzetto299, P. Mijakowski300, C. A. Miller301, A. Minamino302, O. Mineev303, S. Mine304, R. E. Minvielle305, G. Mituka306, M. Miura307, K. Mizouchi308, J. -P. Mols309, L. Monfregola310, E. Monmarthe311, F. Moreau312, B. Morgan313, S. Moriyama314, D. Morris315, A. Muir316, A. Murakami317, J. F. Muratore318, M. Murdoch319, S. Murphy320, J. Myslik321, G. Nagashima322, T. Nakadaira323, M. Nakahata324, T. Nakamoto325, K. Nakamura326, S. Nakayama327, T. Nakaya328, D. Naples329, B. Nelson330, T. C. Nicholls331, K. Nishikawa332, H. Nishino333, K. Nitta334, F. Nizery335, J. A. Nowak336, M. Noy337, Y. Obayashi338, T. Ogitsu339, H. Ohhata340, T. Okamura341, K. Okumura342, T. Okusawa343, C. Ohlmann344, K. Olchanski345, R. Openshaw346, S. M. Oser347, M. Otani348, R. A. Owen349, Y. Oyama350, T. Ozaki351, M. Y. Pac352, V. Palladino353, V. Paolone354, P. Paul355, D. Payne356, G. F. Pearce357, C. Pearson358, J. D. Perkin359, M. Pfleger360, F. Pierre361, D. Pierrepont362, P. Plonski363, P. Poffenberger364, E. Poplawska365, B. Popov366, M. Posiadala367, J. -M. Poutissou368, R. Poutissou369, R. Preece370, P. Przewlocki371, W. Qian372, J. L. Raaf373, E. Radicioni374, K. Ramos375, P. Ratoff376, T. M. Raufer377, M. Ravonel378, M. Raymond379, F. Retiere380, D. Richards381, J. -L. Ritou382, A. Robert383, P. A. Rodrigues384, E. Rondio385, M. Roney386, M. Rooney387, D. Ross388, B. Rossi389, S. Roth390, A. Rubbia391, D. Ruterbories392, R. Sacco393, S. Sadler394, K. Sakashita395, F. Sanchez396, A. Sarrat397, K. Sasaki398, P. Schaack399, J. Schmidt400, K. Scholberg401, J. Schwehr402, M. Scott403, D. I. Scully404, Y. Seiya405, T. Sekiguchi406, H. Sekiya407, G. Sheffer408, M. Shibata409, Y. Shimizu410, M. Shiozawa411, S. Short412, M. Siyad413, D. Smith414, R. J. Smith415, M. Smy416, J. Sobczyk417, H. Sobel418, S. Sooriyakumaran419, M. Sorel420, J. Spitz421, A. Stahl422, P. Stamoulis423, O. Star424, J. Statter425, L. Stawnyczy426, J. Steinmann427, J. Steffens428, B. Still429, M. Stodulski430, J. Stone431, C. Strabel432, T. Strauss433, R. Sulej434, P. Sutcliffe435, A. Suzuki436, K. Suzuki437, S. Suzuki438, S. Y. Suzuki439, Y. Suzuki440, Y. Suzuki441, J. Swierblewski442, T. Szeglowski443, M. Szeptycka444, R. Tacik445, M. Tada446, A. S. Tadepalli447, M. Taguchi448, S. Takahashi449, A. Takeda450, Y. Takenaga451, Y. Takeuchi452, H. A. Tanaka453, K. Tanaka454, M. Tanaka455, M. M. Tanaka456, N. Tanimoto457, K. Tashiro458, I. J. Taylor459, A. Terashima460, D. Terhorst461, R. Terri462, L. F. Thompson463, A. Thorley464, M. Thorpe465, W. Toki466, T. Tomaru467, Y. Totsuka468, C. Touramanis469, T. Tsukamoto470, V. Tvaskis471, M. Tzanov472, Y. Uchida473, K. Ueno474, M. Usseglio475, A. Vacheret476, M. Vagins477, J. F. Van Schalkwyk478, J. -C. Vanel479, G. Vasseur480, O. Veledar481, P. Vincent482, T. Wachala483, A. V. Waldron484, C. W. Walter485, P. J. Wanderer486, M. A. Ward487, G. P. Ward488, D. Wark489, D. Warner490, M. O. Wascko491, A. Weber492, R. Wendell493, J. Wendland494, N. West495, L. H. Whitehead496, G. Wikström497, R. J. Wilkes498, M. J. Wilking499, Z. Williamson500, J. R. Wilson501, R. J. Wilson502, K. Wong503, T. Wongjirad504, S. Yamada505, Y. Yamada506, A. Yamamoto507, K. Yamamoto508, Y. Yamanoi509, H. Yamaoka510, C. Yanagisawa511, T. Yano512, S. Yen513, N. Yershov514, M. Yokoyama515, A. Zalewska516, J. Zalipska517, K. Zaremba518, M. Ziembicki519, E. D. Zimmerman520, M. Zito521, J. Zmuda522
Affiliations: 1University of Geneva, 2University of Tokyo, 3High Energy Accelerator Research Organization, 4Duke University, 5STFC, Rutherford Appleton Laboratory, 6TRIUMF, 7STFC, Rutherford Appleton Laboratory, 8UPMC, Université Paris Diderot, 9Brookhaven National Laboratory, 10STFC, Rutherford Appleton Laboratory, 11Kobe University, 12High Energy Accelerator Research Organization, 13University of Geneva, 14University of Bern, 15University of Bern, 16Colorado State University, 17Ecole Polytechnique, IN2P3-CNRS, 18Université de Lyon, Université Claude Bernard Lyon 1, 19ETH Zurich, 20Institut de Fisica d'Altes Energies, 21University of Regina, 22University of Warwick, 23IRFU, CEA Saclay, 24Oxford University, 25University of Colorado at Boulder, 26H. Niewodniczanski Institute of Nuclear Physics PAN, 27University of Bern, 28Lancaster University, 29INFN Sezione di Bari and Università e Politecnico di Bari, 30Colorado State University, 31University of Washington, 32Lancaster University, 33Ecole Polytechnique, IN2P3-CNRS, 34IRFU, CEA Saclay, 35State University of New York at Stony Brook, 36York University, 37University of Victoria, 38TRIUMF, 39TRIUMF, 40IRFU, CEA Saclay, 41H. Niewodniczanski Institute of Nuclear Physics PAN, 42University of Geneva, 43University of Rochester, 44University of Victoria, 458, deceased, 46IRFU, CEA Saclay, 47University of Warwick, 48IRFU, CEA Saclay, 49University of Victoria, 50University of Rochester, 51University of Geneva, 52University of Warwick, 53Louisiana State University, 54Ecole Polytechnique, IN2P3-CNRS, 55University of British Columbia, 56University of British Columbia, 57Colorado State University, 58University of Rochester, 59University of Toronto, 60University of Liverpool, 61IRFU, CEA Saclay, 62Institut de Fisica d'Altes Energies, 63University of Liverpool, 64University of Sheffield, 65University of Warwick, 66Institut de Fisica d'Altes Energies, 67INFN Sezione di Bari and Università e Politecnico di Bari, 68IRFU, CEA Saclay, 69Université de Lyon, Université Claude Bernard Lyon 1, 70IFIC, 71IRFU, CEA Saclay, 72University of Liverpool, 73Seoul National University, 74Ecole Polytechnique, IN2P3-CNRS, 75University of Liverpool, 76IRFU, CEA Saclay, 77University of Liverpool, 78Louisiana State University, 79INFN Sezione di Padova and Università di Padova, 80University of Washington, 81University of Liverpool, 82ETH Zurich, 83H. Niewodniczanski Institute of Nuclear Physics PAN, 84University of Pittsburgh, 85Colorado State University, 86Lancaster University, 87University of Washington, 88University of Rochester, 89IRFU, CEA Saclay, 90University of Toronto, 91INFN Sezione di Napoli and Università di Napoli, 92Oxford University, 93Ecole Polytechnique, IN2P3-CNRS, 94IRFU, CEA Saclay, 95IRFU, CEA Saclay, 96STFC, Rutherford Appleton Laboratory, 97Queen Mary University of London, 98ETH Zurich, 99Ecole Polytechnique, IN2P3-CNRS, 100Imperial College London, 101TRIUMF, 102INFN Sezione di Roma and Università di Roma "La Sapienza'', 103Ecole Polytechnique, IN2P3-CNRS, 104IRFU, CEA Saclay, 105University of Geneva, 106UPMC, Université Paris Diderot, 107STFC, Rutherford Appleton Laboratory, 108University of Pittsburgh, 109Warsaw University of Technology, 110University of Washington, 111Louisiana State University, 112IRFU, CEA Saclay, 113University of Bern, 114Brookhaven National Laboratory, 115IFIC, 116ETH Zurich, 117TRIUMF, 118Duke University, 119University of Geneva, 120Lancaster University, 121TRIUMF, 122STFC, Rutherford Appleton Laboratory, 123University of Rochester, 124University of Washington, 125University of Bern, 126University of Victoria, 127High Energy Accelerator Research Organization, 128Miyagi University of Education, 129TRIUMF, 130York University, 131Brookhaven National Laboratory, 132Queen Mary University of London, 133University of Victoria, 134Institut de Fisica d'Altes Energies, 135ETH Zurich, 136Queen Mary University of London, 137University of Regina, 138Institut de Fisica d'Altes Energies, 139State University of New York at Stony Brook, 140IRFU, CEA Saclay, 141IRFU, CEA Saclay, 142Brookhaven National Laboratory, 143Wroclaw University, 14455, deceased, 145IFIC, 146Kyoto University, 147Ecole Polytechnique, IN2P3-CNRS, 148TRIUMF, 149STFC, Daresbury Laboratory, 150STFC, Rutherford Appleton Laboratory, 151Institut de Fisica d'Altes Energies, 152Imperial College London, 153TRIUMF, 154Imperial College London, 155Oxford University, 156TRIUMF, 157IFIC, 158Kobe University, 159University of Warwick, 160Louisiana State University, 161York University, 162High Energy Accelerator Research Organization, 163University of Victoria, 164High Energy Accelerator Research Organization, 165University of Regina, 166University of British Columbia, 167Lancaster University, 168High Energy Accelerator Research Organization, 169University of Tokyo, 170University of Sheffield, 171University of British Columbia, 172TRIUMF, 173TRIUMF, 174IRFU, CEA Saclay, 175High Energy Accelerator Research Organization, 176State University of New York at Stony Brook, 177Kyoto University, 178High Energy Accelerator Research Organization, 179University of Silesia, 180University of Victoria, 181ETH Zurich, 182Queen Mary University of London, 183Kyoto University, 184Kyoto University, 185Institut de Fisica d'Altes Energies, 186High Energy Accelerator Research Organization, 187Kyoto University, 188STFC, Rutherford Appleton Laboratory, 189State University of New York at Stony Brook, 190High Energy Accelerator Research Organization, 191University of Tokyo, 192High Energy Accelerator Research Organization, 193Imperial College London, 194University of Tokyo, 195University of Tokyo, 196Institute for Nuclear Research of the Russian Academy of Sciences, 197University of British Columbia, 198University of Colorado at Boulder, 199Chonnam National University, 200Institut de Fisica d'Altes Energies, 201State University of New York at Stony Brook, 202University of Tokyo, 203University of Tokyo, 204University of Tokyo, 205University of Tokyo, 20626, deceased, 207University of Victoria, 208High Energy Accelerator Research Organization, 209Imperial College London, 210TRIUMF, 211Kyoto University, 212Boston University, 213University of Liverpool, 214Institute for Nuclear Research of the Russian Academy of Sciences, 215Imperial College London, 216TRIUMF, 217Institute for Nuclear Research of the Russian Academy of Sciences, 218University of Warsaw, 219Kyoto University, 220Chonnam National University, 221Seoul National University, 222High Energy Accelerator Research Organization, 223University of British Columbia, 224University of Silesia, 225University of Alberta, 226High Energy Accelerator Research Organization, 227Imperial College London, 228High Energy Accelerator Research Organization, 229Lancaster University, 230TRIUMF, 231Lancaster University, 232University of Geneva, 233High Energy Accelerator Research Organization, 234University of Tokyo, 235University of Tokyo, 236The Andrzej Soltan Institute for Nuclear Studies, 237Colorado State University, 238University of Bern, 239University of California, Irvine, 240Kyoto University, 241Kyoto University, 242Institute for Nuclear Research of the Russian Academy of Sciences, 243Louisiana State University, 244TRIUMF, 245Kyoto University, 246Warsaw University of Technology, 247Kyoto University, 248Louisiana State University, 249The Andrzej Soltan Institute for Nuclear Studies, 250RWTH Aachen University, 251University of Victoria, 252INFN Sezione di Padova and Università di Padova, 253University of Sheffield, 254State University of New York at Stony Brook, 255IRFU, CEA Saclay, 256TRIUMF, 257University of Tokyo, 258University of Victoria, 259University of Regina, 260Chonnam National University, 261University of British Columbia, 262University of Warwick, 263IRFU, CEA Saclay, 264State University of New York at Stony Brook, 265University of British Columbia, 266INFN Sezione di Roma and Università di Roma "La Sapienza'', 267Institut de Fisica d'Altes Energies, 268IRFU, CEA Saclay, 269INFN Sezione di Bari and Università e Politecnico di Bari, 270TRIUMF, 271High Energy Accelerator Research Organization, 272State University of New York at Stony Brook, 273Imperial College London, 274University of Rochester, 275ETH Zurich, 276TRIUMF, 277University of Colorado at Boulder, 278Brookhaven National Laboratory, 279Université de Lyon, Université Claude Bernard Lyon 1, 280University of Toronto, 281High Energy Accelerator Research Organization, 282Lancaster University, 283Warsaw University of Technology, 284Imperial College London, 285University of Regina, 286Osaka City University, 287Kyoto University, 288Institute for Nuclear Research of the Russian Academy of Sciences, 289University of Liverpool, 290IRFU, CEA Saclay, 291University of Liverpool, 292University of Rochester, 293State University of New York at Stony Brook, 294University of Tokyo, 295Lancaster University, 296University of Bern, 297Louisiana State University, 298STFC, Rutherford Appleton Laboratory, 299INFN Sezione di Padova and Università di Padova, 300The Andrzej Soltan Institute for Nuclear Studies, 301TRIUMF, 302Kyoto University, 303Institute for Nuclear Research of the Russian Academy of Sciences, 304University of California, Irvine, 305Louisiana State University, 306University of Tokyo, 307University of Tokyo, 308TRIUMF, 309IRFU, CEA Saclay, 310IFIC, 311IRFU, CEA Saclay, 312Ecole Polytechnique, IN2P3-CNRS, 313University of Warwick, 314University of Tokyo, 315TRIUMF, 316STFC, Daresbury Laboratory, 317Kyoto University, 318Brookhaven National Laboratory, 319University of Liverpool, 320University of Geneva, 321University of Victoria, 322State University of New York at Stony Brook, 323High Energy Accelerator Research Organization, 324University of Tokyo, 325High Energy Accelerator Research Organization, 326High Energy Accelerator Research Organization, 327University of Tokyo, 328Kyoto University, 329University of Pittsburgh, 330State University of New York at Stony Brook, 331STFC, Rutherford Appleton Laboratory, 332High Energy Accelerator Research Organization, 333University of Tokyo, 334Kyoto University, 335IRFU, CEA Saclay, 336Louisiana State University, 337Imperial College London, 338University of Tokyo, 339High Energy Accelerator Research Organization, 340High Energy Accelerator Research Organization, 341High Energy Accelerator Research Organization, 342University of Tokyo, 343Osaka City University, 344TRIUMF, 345TRIUMF, 346TRIUMF, 347University of British Columbia, 348Kyoto University, 349Queen Mary University of London, 350High Energy Accelerator Research Organization, 351Osaka City University, 352Dongshin University, 353INFN Sezione di Napoli and Università di Napoli, 354University of Pittsburgh, 355State University of New York at Stony Brook, 356University of Liverpool, 357STFC, Rutherford Appleton Laboratory, 358TRIUMF, 359University of Sheffield, 360University of Victoria, 3618, deceased, 362IRFU, CEA Saclay, 363Warsaw University of Technology, 364University of Victoria, 365Queen Mary University of London, 366UPMC, Université Paris Diderot, 367University of Warsaw, 368TRIUMF, 369TRIUMF, 370STFC, Rutherford Appleton Laboratory, 371The Andrzej Soltan Institute for Nuclear Studies, 372STFC, Rutherford Appleton Laboratory, 373Boston University, 374INFN Sezione di Bari and Università e Politecnico di Bari, 375State University of New York at Stony Brook, 376Lancaster University, 377STFC, Rutherford Appleton Laboratory, 378University of Geneva, 379Imperial College London, 380TRIUMF, 381University of Warwick, 382IRFU, CEA Saclay, 383UPMC, Université Paris Diderot, 384University of Rochester, 385The Andrzej Soltan Institute for Nuclear Studies, 386University of Victoria, 387STFC, Rutherford Appleton Laboratory, 388TRIUMF, 389University of Bern, 390RWTH Aachen University, 391ETH Zurich, 392Colorado State University, 393Queen Mary University of London, 394University of Sheffield, 395High Energy Accelerator Research Organization, 396Institut de Fisica d'Altes Energies, 397IRFU, CEA Saclay, 398High Energy Accelerator Research Organization, 399Imperial College London, 400State University of New York at Stony Brook, 401Duke University, 402Colorado State University, 403Imperial College London, 404University of Warwick, 405Osaka City University, 406High Energy Accelerator Research Organization, 407University of Tokyo, 408TRIUMF, 409High Energy Accelerator Research Organization, 410University of Tokyo, 411University of Tokyo, 412Imperial College London, 413STFC, Rutherford Appleton Laboratory, 414Louisiana State University, 415Oxford University, 416University of California, Irvine, 417Wroclaw University, 418University of California, Irvine, 419TRIUMF, 420IFIC, 421University of Colorado at Boulder, 422RWTH Aachen University, 423IFIC, 424TRIUMF, 425Lancaster University, 426York University, 427RWTH Aachen University, 428State University of New York at Stony Brook, 429Queen Mary University of London, 430H. Niewodniczanski Institute of Nuclear Physics PAN, 431Boston University, 432ETH Zurich, 433ETH Zurich, 434The Andrzej Soltan Institute for Nuclear Studies, 435University of Liverpool, 436Kobe University, 437Kyoto University, 438High Energy Accelerator Research Organization, 439High Energy Accelerator Research Organization, 440High Energy Accelerator Research Organization, 441High Energy Accelerator Research Organization, 442H. Niewodniczanski Institute of Nuclear Physics PAN, 443University of Silesia, 444The Andrzej Soltan Institute for Nuclear Studies, 445University of Regina, 446High Energy Accelerator Research Organization, 447State University of New York at Stony Brook, 448Kyoto University, 449Kyoto University, 450University of Tokyo, 451University of Tokyo, 452Kobe University, 453University of British Columbia, 454High Energy Accelerator Research Organization, 455High Energy Accelerator Research Organization, 456High Energy Accelerator Research Organization, 457University of Tokyo, 458Osaka City University, 459State University of New York at Stony Brook, 460High Energy Accelerator Research Organization, 461RWTH Aachen University, 462Queen Mary University of London, 463University of Sheffield, 464University of Liverpool, 465STFC, Rutherford Appleton Laboratory, 466Colorado State University, 467High Energy Accelerator Research Organization, 46821, deceased, 469University of Liverpool, 470High Energy Accelerator Research Organization, 471University of Victoria, 472Louisiana State University, 473Imperial College London, 474University of Tokyo, 475IRFU, CEA Saclay, 476Imperial College London, 477University of California, Irvine, 478Imperial College London, 479Ecole Polytechnique, IN2P3-CNRS, 480IRFU, CEA Saclay, 481University of Sheffield, 482TRIUMF, 483H. Niewodniczanski Institute of Nuclear Physics PAN, 484Oxford University, 485Duke University, 486Brookhaven National Laboratory, 487University of Sheffield, 488University of Sheffield, 489STFC, Rutherford Appleton Laboratory, 490Colorado State University, 491Imperial College London, 492Oxford University, 493Duke University, 494University of British Columbia, 495Oxford University, 496University of Warwick, 497University of Geneva, 498University of Washington, 499TRIUMF, 500Oxford University, 501Queen Mary University of London, 502Colorado State University, 503TRIUMF, 504Duke University, 505University of Tokyo, 506High Energy Accelerator Research Organization, 507High Energy Accelerator Research Organization, 508Osaka City University, 509High Energy Accelerator Research Organization, 510High Energy Accelerator Research Organization, 511State University of New York at Stony Brook, 512Kobe University, 513TRIUMF, 514Institute for Nuclear Research of the Russian Academy of Sciences, 515University of Tokyo, 516H. Niewodniczanski Institute of Nuclear Physics PAN, 517University of British Columbia, 518Warsaw University of Technology, 519Warsaw University of Technology, 520University of Colorado at Boulder, 521IRFU, CEA Saclay, 522Wroclaw University

The T2K experiment is a long-baseline neutrino oscillation experiment. Its main goal is to measure the last unknown lepton sector mixing angle {\theta}_{13} by observing {\nu}_e appearance in a {\nu}_{\mu} beam. It also aims to make a precision measurement of the known oscillation parameters, {\Delta}m^{2}_{23} and sin^{2} 2{\theta}_{23}, via {\nu}_{\mu} disappearance studies. Read More

We study an asymptotic behavior of the return probability for the critical random matrix ensemble in the regime of strong multifractality. The return probability is expected to show critical scaling in the limit of large time or large system size. Using the supersymmetric virial expansion we confirm the scaling law and find analytical expressions for the fractal dimension of the wave functions $d_2$ and the dynamical scaling exponent $\mu$. Read More

2011Jan
Affiliations: 1Instituto de Astronomía, UCN, Antofagasta, 2Isaac Newton Institute, Santiago, 3European Southern Observatory, Santiago, 4Isaac Newton Institute, Santiago

We investigate the new and still poorly studied matter of so-called multiple stellar populations (MSPs) in Galactic globular clusters (GGCs). Studying MSPs and their accumulated data can shed more light on the formation and evolution of GGCs and other closely related fundamental problems. We focus on the strong relation between the radial distribution of evolutionary homogeneous stars and their U-based photometric characteristics in the nearby GGC NGC 6752 and compare this with a similar relation we found in NGC 3201 and NGC 1261. Read More

2010Dec

Intensive theoretical and experimental efforts over the past decade have aimed at explaining the discrepancy between data for the proton electric to magnetic form factor ratio, $G_{E}/G_{M}$, obtained separately from cross section and polarization transfer measurements. One possible explanation for this difference is a two-photon-exchange (TPEX) contribution. In an effort to search for effects beyond the one-photon-exchange or Born approximation, we report measurements of polarization transfer observables in the elastic $H(\vec{e},e'\vec{p})$ reaction for three different beam energies at a fixed squared momentum transfer $Q^2 = 2. Read More

An exact solution is found for the problem of the center-of-band ($E=0$) anomaly in the one-dimensional (1D) Anderson model of localization. By deriving and solving an equation for the generating function $\Phi(u,\phi)$ we obtained an exact expression in quadratures for statistical moments $I_{q}=\langle |\psi_{E}({\bf r})|^{2q}\rangle$ of normalized wavefunctions $\psi_{E}({\bf r})$ which show violation of one-parameter scaling and emergence of an additional length scale at $E\approx 0$. Read More

The one-dimensional (1d) Anderson model (AM) has statistical anomalies at any rational point $f=2a/\lambda_{E}$, where $a$ is the lattice constant and $\lambda_{E}$ is the de Broglie wavelength. We develop a regular approach to anomalous statistics of normalized eigenfunctions $\psi(r)$ at such commensurability points. The approach is based on an exact integral transfer-matrix equation for a generating function $\Phi_{r}(u, \phi)$ ($u$ and $\phi$ have a meaning of the squared amplitude and phase of eigenfunctions, $r$ is the position of the observation point). Read More

The dynamical scaling for statistics of critical multifractal eigenstates proposed by Chalker is analytically verified for the critical random matrix ensemble in the limit of strong multifractality controlled by the small parameter $b\ll 1$. The power law behavior of the quantum return probability $P_{N}(\tau)$ as a function of the matrix size $N$ or time $\tau$ is confirmed in the limits $\tau/N\rightarrow\infty$ and $N/\tau\rightarrow\infty$, respectively, and it is shown that the exponents characterizing these power laws are equal to each other up to the order $b^{2}$. The corresponding analytical expression for the fractal dimension $d_{2}$ is found. Read More

2010May

Among the most fundamental observables of nucleon structure, electromagnetic form factors are a crucial benchmark for modern calculations describing the strong interaction dynamics of the nucleon's quark constituents; indeed, recent proton data have attracted intense theoretical interest. In this letter, we report new measurements of the proton electromagnetic form factor ratio using the recoil polarization method, at momentum transfers Q2=5.2, 6. Read More

2010Apr
Affiliations: 1Instituto de Astronomia, UCN, Antofagasta, 2Isaac Newton Institute, Santiago, 3European Southern Observatory, Santiago, 4Isaac Newton Institute, Santiago

We report on evidence of the inhomogeneity (multiplicity) of the stellar population in the Galactic globular cluster (GC) NGC 3201, which is irregularly reddened across its face. We carried out a more detailed and careful analysis of our recently published new multi-color photometry in a wide field of the cluster with particular emphasis on the U band. Using the photometric data corrected for differential reddening, we found for the first time two key signs of the inhomogeneity in the cluster's stellar population and of its radial variation in the GC. Read More

2010Apr
Affiliations: 1Instituto de Astronomia, UCN, Antofagasta, 2Isaac Newton Institute, Santiago, 3European Southern Observatory, Santiago, 4Isaac Newton Institute, Santiago

(Abriged)This work studies in more detail the stellar population, including its photometric properties and characteristics, in the rarely studied southern Galactic globular cluster NGC 1261. We focus on the brighter sequences of the cluster's color-magnitude diagram (CMD). Like in our previous works, we rely upon photometry in several passbands to achieve more reliable results and conclusions. Read More

We develop a semi-quantitative theory of electron pairing and resulting superconductivity in bulk "poor conductors" in which Fermi energy $E_F$ is located in the region of localized states not so far from the Anderson mobility edge $E_c$. We review the existing theories and experimental data and argue that a large class of disordered films is described by this model. Our theoretical analysis is based on the analytical treatment of pairing correlations, described in the basis of the exact single-particle eigenstates of the 3D Anderson model, which we combine with numerical data on eigenfunction correlations. Read More

We consider effects of magnetic field on the thermopower and thermoconductance of a single-electron transistor based on a quantum dot strongly coupled to one of the leads by a single-mode quantum point contact. We show appearance of two new energy scales: T_{min} ~ |r|^2 E_C(B/B_C)^2 depending on a ratio of magnetic field B and the field B_C corresponding to a full polarization of point contact and T_{max} ~ |r|^2 E_C depending on a reflection amplitude r and charging energy E_C. We predict that the behavior of thermoelectric coefficients is consistent with the Fermi-liquid theory at temperatures T << T_{min}, while crossover from Non-Fermi-liquid regime associated with a two-channel Kondo effect to Fermi-liquid single-channel Kondo behavior can be seen at T_{min}Read More

We consider two random matrix ensembles which are relevant for describing critical spectral statistics in systems with multifractal eigenfunction statistics. One of them is the Gaussian non-invariant ensemble which eigenfunction statistics is multifractal, while the other is the invariant random matrix ensemble with a shallow, log-square confinement potential. We demonstrate a close correspondence between the spectral as well as eigenfuncton statistics of these random matrix ensembles and those of the random tight-binding Hamiltonian in the point of the Anderson localization transition in three dimensions. Read More

This is a course on Random Matrix Theory which includes traditional as well as advanced topics presented with an extensive use of classical logarithmic plasma analogy and that of the quantum systems of one-dimensional interacting fermions with inverse square interaction (Calogero-Sutherland model). Certain non-invariant random matrix ensembles are also considered with the emphasis on the eigenfunction statistics in them. The course can also be viewed as introduction to theory of localization where the (non-invariant) random matrix ensembles play a role of the toy models to illustrate functional methods based on super-vector/super-matrix representations. Read More

2009Jul
Authors: The PANDA Collaboration, W. Erni1, I. Keshelashvili2, B. Krusche3, M. Steinacher4, Y. Heng5, Z. Liu6, H. Liu7, X. Shen8, O. Wang9, H. Xu10, J. Becker11, F. Feldbauer12, F. -H. Heinsius13, T. Held14, H. Koch15, B. Kopf16, M. Pelizaeus17, T. Schroeder18, M. Steinke19, U. Wiedner20, J. Zhong21, A. Bianconi22, M. Bragadireanu23, D. Pantea24, A. Tudorache25, V. Tudorache26, M. De Napoli27, F. Giacoppo28, G. Raciti29, E. Rapisarda30, C. Sfienti31, E. Bialkowski32, A. Budzanowski33, B. Czech34, M. Kistryn35, S. Kliczewski36, A. Kozela37, P. Kulessa38, K. Pysz39, W. Schaefer40, R. Siudak41, A. Szczurek42, W. Czy. zycki43, M. Domagala44, M. Hawryluk45, E. Lisowski46, F. Lisowski47, L. Wojnar48, D. Gil49, P. Hawranek50, B. Kamys51, St. Kistryn52, K. Korcyl53, W. Krzemien54, A. Magiera55, P. Moskal56, Z. Rudy57, P. Salabura58, J. Smyrski59, A. Wronska60, M. Al-Turany61, I. Augustin62, H. Deppe63, H. Flemming64, J. Gerl65, K. Goetzen66, R. Hohler67, D. Lehmann68, B. Lewandowski69, J. Luehning70, F. Maas71, D. Mishra72, H. Orth73, K. Peters74, T. Saito75, G. Schepers76, C. J. Schmidt77, L. Schmitt78, C. Schwarz79, B. Voss80, P. Wieczorek81, A. Wilms82, K. -T. Brinkmann83, H. Freiesleben84, R. Jaekel85, R. Kliemt86, T. Wuerschig87, H. -G. Zaunick88, V. M. Abazov89, G. Alexeev90, A. Arefiev91, V. I. Astakhov92, M. Yu. Barabanov93, B. V. Batyunya94, Yu. I. Davydov95, V. Kh. Dodokhov96, A. A. Efremov97, A. G. Fedunov98, A. A. Feshchenko99, A. S. Galoyan100, S. Grigoryan101, A. Karmokov102, E. K. Koshurnikov103, V. Ch. Kudaev104, V. I. Lobanov105, Yu. Yu. Lobanov106, A. F. Makarov107, L. V. Malinina108, V. L. Malyshev109, G. A. Mustafaev110, A. Olshevski111, M. A. . Pasyuk112, E. A. Perevalova113, A. A. Piskun114, T. A. Pocheptsov115, G. Pontecorvo116, V. K. Rodionov117, Yu. N. Rogov118, R. A. Salmin119, A. G. Samartsev120, M. G. Sapozhnikov121, A. Shabratova122, G. S. Shabratova123, A. N. Skachkova124, N. B. Skachkov125, E. A. Strokovsky126, M. K. Suleimanov127, R. Sh. Teshev128, V. V. Tokmenin129, V. V. Uzhinsky130, A. S. Vodopianov131, S. A. Zaporozhets132, N. I. Zhuravlev133, A. G. Zorin134, D. Branford135, K. Foehl136, D. Glazier137, D. Watts138, P. Woods139, W. Eyrich140, A. Lehmann141, A. Teufel142, S. Dobbs143, Z. Metreveli144, K. Seth145, B. Tann146, A. Tomaradze147, D. Bettoni148, V. Carassiti149, A. Cecchi150, P. Dalpiaz151, E. Fioravanti152, I. Garzia153, M. Negrini154, M. Savri`e155, G. Stancari156, B. Dulach157, P. Gianotti158, C. Guaraldo159, V. Lucherini160, E. Pace161, A. Bersani162, M. Macri163, M. Marinelli164, R. F. Parodi165, I. Brodski166, W. Doering167, P. Drexler168, M. Dueren169, Z. Gagyi-Palffy170, A. Hayrapetyan171, M. Kotulla172, W. Kuehn173, S. Lange174, M. Liu175, V. Metag176, M. Nanova177, R. Novotny178, C. Salz179, J. Schneider180, P. Schoenmeier181, R. Schubert182, S. Spataro183, H. Stenzel184, C. Strackbein185, M. Thiel186, U. Thoering187, S. Yang188, T. Clarkson189, E. Cowie190, E. Downie191, G. Hill192, M. Hoek193, D. Ireland194, R. Kaiser195, T. Keri196, I. Lehmann197, K. Livingston198, S. Lumsden199, D. MacGregor200, B. McKinnon201, M. Murray202, D. Protopopescu203, G. Rosner204, B. Seitz205, G. Yang206, M. Babai207, A. K. Biegun208, A. Bubak209, E. Guliyev210, V. S. Jothi211, M. Kavatsyuk212, H. Loehner213, J. Messchendorp214, H. Smit215, J. C. van der Weele216, F. Garcia217, D. -O. Riska218, M. Buescher219, R. Dosdall220, R. Dzhygadlo221, A. Gillitzer222, D. Grunwald223, V. Jha224, G. Kemmerling225, H. Kleines226, A. Lehrach227, R. Maier228, M. Mertens229, H. Ohm230, D. Prasuhn231, T. Randriamalala232, J. Ritman233, M. Roeder234, T. Stockmanns235, P. Wintz236, P. Wuestner237, J. Kisiel238, S. Li239, Z. Li240, Z. Sun241, H. Xu242, S. Fissum243, K. Hansen244, L. Isaksson245, M. Lundin246, B. Schroeder247, P. Achenbach248, M. C. Mora Espi249, J. Pochodzalla250, S. Sanchez251, A. Sanchez-Lorente252, V. I. Dormenev253, A. A. Fedorov254, M. V. Korzhik255, O. V. Missevitch256, V. Balanutsa257, V. Chernetsky258, A. Demekhin259, A. Dolgolenko260, P. Fedorets261, A. Gerasimov262, V. Goryachev263, A. Boukharov264, O. Malyshev265, I. Marishev266, A. Semenov267, C. Hoeppner268, B. Ketzer269, I. Konorov270, A. Mann271, S. Neubert272, S. Paul273, Q. Weitzel274, A. Khoukaz275, T. Rausmann276, A. Taeschner277, J. Wessels278, R. Varma279, E. Baldin280, K. Kotov281, S. Peleganchuk282, Yu. Tikhonov283, J. Boucher284, T. Hennino285, R. Kunne286, S. Ong287, J. Pouthas288, B. Ramstein289, P. Rosier290, M. Sudol291, J. Van de Wiele292, T. Zerguerras293, K. Dmowski294, R. Korzeniewski295, D. Przemyslaw296, B. Slowinski297, G. Boca298, A. Braghieri299, S. Costanza300, A. Fontana301, P. Genova302, L. Lavezzi303, P. Montagna304, A. Rotondi305, N. I. Belikov306, A. M. Davidenko307, A. A. Derevschikov308, Y. M. Goncharenko309, V. N. Grishin310, V. A. Kachanov311, D. A. Konstantinov312, V. A. Kormilitsin313, V. I. Kravtsov314, Y. A. Matulenko315, Y. M. Melnik316, A. P. Meschanin317, N. G. Minaev318, V. V. Mochalov319, D. A. Morozov320, L. V. Nogach321, S. B. Nurushev322, A. V. Ryazantsev323, P. A. Semenov324, L. F. Soloviev325, A. V. Uzunian326, A. N. Vasiliev327, A. E. Yakutin328, T. Baeck329, B. Cederwall330, C. Bargholtz331, L. Geren332, P. E. Tegner333, S. Belostotski334, G. Gavrilov335, A. Itzotov336, A. Kisselev337, P. Kravchenko338, S. Manaenkov339, O. Miklukho340, Y. Naryshkin341, D. Veretennikov342, V. Vikhrov343, A. Zhadanov344, L. Fava345, D. Panzieri346, D. Alberto347, A. Amoroso348, E. Botta349, T. Bressani350, S. Bufalino351, M. P. Bussa352, L. Busso353, F. De Mori354, M. Destefanis355, L. Ferrero356, A. Grasso357, M. Greco358, T. Kugathasan359, M. Maggiora360, S. Marcello361, G. Serbanut362, S. Sosio363, R. Bertini364, D. Calvo365, S. Coli366, P. De Remigis367, A. Feliciello368, A. Filippi369, G. Giraudo370, G. Mazza371, A. Rivetti372, K. Szymanska373, F. Tosello374, R. Wheadon375, O. Morra376, M. Agnello377, F. Iazzi378, K. Szymanska379, R. Birsa380, F. Bradamante381, A. Bressan382, A. Martin383, H. Clement384, C. Ekstroem385, H. Calen386, S. Grape387, B. Hoeistad388, T. Johansson389, A. Kupsc390, P. Marciniewski391, E. Thome392, J. Zlomanczuk393, J. Diaz394, A. Ortiz395, S. Borsuk396, A. Chlopik397, Z. Guzik398, J. Kopec399, T. Kozlowski400, D. Melnychuk401, M. Plominski402, J. Szewinski403, K. Traczyk404, B. Zwieglinski405, P. Buehler406, A. Gruber407, P. Kienle408, J. Marton409, E. Widmann410, J. Zmeskal411
Affiliations: 1Basel U, 2Basel U, 3Basel U, 4Basel U, 5Beijing, Inst. High Energy Phys, 6Beijing, Inst. High Energy Phys, 7Beijing, Inst. High Energy Phys, 8Beijing, Inst. High Energy Phys, 9Beijing, Inst. High Energy Phys, 10Beijing, Inst. High Energy Phys, 11Ruhr U., Bochum, 12Ruhr U., Bochum, 13Ruhr U., Bochum, 14Ruhr U., Bochum, 15Ruhr U., Bochum, 16Ruhr U., Bochum, 17Ruhr U., Bochum, 18Ruhr U., Bochum, 19Ruhr U., Bochum, 20Ruhr U., Bochum, 21Ruhr U., Bochum, 22Brescia U, 23Bukarest-Magurele U, 24Bukarest-Magurele U, 25Bukarest-Magurele U, 26Bukarest-Magurele U, 27Catania U. & INFN, Catania, 28Catania U. & INFN, Catania, 29Catania U. & INFN, Catania, 30Catania U. & INFN, Catania, 31Catania U. & INFN, Catania, 32Cracow, INP, 33Cracow, INP, 34Cracow, INP, 35Cracow, INP, 36Cracow, INP, 37Cracow, INP, 38Cracow, INP, 39Cracow, INP, 40Cracow, INP, 41Cracow, INP, 42Cracow, INP, 43Cracow Tech. U, 44Cracow Tech. U, 45Cracow Tech. U, 46Cracow Tech. U, 47Cracow Tech. U, 48Cracow Tech. U, 49Jagiellonian U, 50Jagiellonian U, 51Jagiellonian U, 52Jagiellonian U, 53Jagiellonian U, 54Jagiellonian U, 55Jagiellonian U, 56Jagiellonian U, 57Jagiellonian U, 58Jagiellonian U, 59Jagiellonian U, 60Jagiellonian U, 61Darmstadt, GSI, 62Darmstadt, GSI, 63Darmstadt, GSI, 64Darmstadt, GSI, 65Darmstadt, GSI, 66Darmstadt, GSI, 67Darmstadt, GSI, 68Darmstadt, GSI, 69Darmstadt, GSI, 70Darmstadt, GSI, 71Darmstadt, GSI, 72Darmstadt, GSI, 73Darmstadt, GSI, 74Darmstadt, GSI, 75Darmstadt, GSI, 76Darmstadt, GSI, 77Darmstadt, GSI, 78Darmstadt, GSI, 79Darmstadt, GSI, 80Darmstadt, GSI, 81Darmstadt, GSI, 82Darmstadt, GSI, 83Dresden, Tech. U, 84Dresden, Tech. U, 85Dresden, Tech. U, 86Dresden, Tech. U, 87Dresden, Tech. U, 88Dresden, Tech. U, 89Dubna, JINR, 90Dubna, JINR, 91Dubna, JINR, 92Dubna, JINR, 93Dubna, JINR, 94Dubna, JINR, 95Dubna, JINR, 96Dubna, JINR, 97Dubna, JINR, 98Dubna, JINR, 99Dubna, JINR, 100Dubna, JINR, 101Dubna, JINR, 102Dubna, JINR, 103Dubna, JINR, 104Dubna, JINR, 105Dubna, JINR, 106Dubna, JINR, 107Dubna, JINR, 108Dubna, JINR, 109Dubna, JINR, 110Dubna, JINR, 111Dubna, JINR, 112Dubna, JINR, 113Dubna, JINR, 114Dubna, JINR, 115Dubna, JINR, 116Dubna, JINR, 117Dubna, JINR, 118Dubna, JINR, 119Dubna, JINR, 120Dubna, JINR, 121Dubna, JINR, 122Dubna, JINR, 123Dubna, JINR, 124Dubna, JINR, 125Dubna, JINR, 126Dubna, JINR, 127Dubna, JINR, 128Dubna, JINR, 129Dubna, JINR, 130Dubna, JINR, 131Dubna, JINR, 132Dubna, JINR, 133Dubna, JINR, 134Dubna, JINR, 135Edinburgh U, 136Edinburgh U, 137Edinburgh U, 138Edinburgh U, 139Edinburgh U, 140Erlangen - Nuremberg U, 141Erlangen - Nuremberg U, 142Erlangen - Nuremberg U, 143Northwestern U, 144Northwestern U, 145Northwestern U, 146Northwestern U, 147Northwestern U, 148Ferrara U. & INFN, Ferrara, 149Ferrara U. & INFN, Ferrara, 150Ferrara U. & INFN, Ferrara, 151Ferrara U. & INFN, Ferrara, 152Ferrara U. & INFN, Ferrara, 153Ferrara U. & INFN, Ferrara, 154Ferrara U. & INFN, Ferrara, 155Ferrara U. & INFN, Ferrara, 156Ferrara U. & INFN, Ferrara, 157Frascati, 158Frascati, 159Frascati, 160Frascati, 161Frascati, 162INFN, Genoa, 163INFN, Genoa, 164INFN, Genoa, 165INFN, Genoa, 166Giessen U, 167Giessen U, 168Giessen U, 169Giessen U, 170Giessen U, 171Giessen U, 172Giessen U, 173Giessen U, 174Giessen U, 175Giessen U, 176Giessen U, 177Giessen U, 178Giessen U, 179Giessen U, 180Giessen U, 181Giessen U, 182Giessen U, 183Giessen U, 184Giessen U, 185Giessen U, 186Giessen U, 187Giessen U, 188Giessen U, 189Glasgow U, 190Glasgow U, 191Glasgow U, 192Glasgow U, 193Glasgow U, 194Glasgow U, 195Glasgow U, 196Glasgow U, 197Glasgow U, 198Glasgow U, 199Glasgow U, 200Glasgow U, 201Glasgow U, 202Glasgow U, 203Glasgow U, 204Glasgow U, 205Glasgow U, 206Glasgow U, 207Groningen, KVI, 208Groningen, KVI, 209Groningen, KVI, 210Groningen, KVI, 211Groningen, KVI, 212Groningen, KVI, 213Groningen, KVI, 214Groningen, KVI, 215Groningen, KVI, 216Groningen, KVI, 217Helsinki U, 218Helsinki U, 219Julich, Forschungszentrum, 220Julich, Forschungszentrum, 221Julich, Forschungszentrum, 222Julich, Forschungszentrum, 223Julich, Forschungszentrum, 224Julich, Forschungszentrum, 225Julich, Forschungszentrum, 226Julich, Forschungszentrum, 227Julich, Forschungszentrum, 228Julich, Forschungszentrum, 229Julich, Forschungszentrum, 230Julich, Forschungszentrum, 231Julich, Forschungszentrum, 232Julich, Forschungszentrum, 233Julich, Forschungszentrum, 234Julich, Forschungszentrum, 235Julich, Forschungszentrum, 236Julich, Forschungszentrum, 237Julich, Forschungszentrum, 238Silesia U, 239Lanzhou, Inst. Modern Phys, 240Lanzhou, Inst. Modern Phys, 241Lanzhou, Inst. Modern Phys, 242Beijing, Inst. High Energy Phys, 243Lund U, 244Lund U, 245Lund U, 246Lund U, 247Lund U, 248Mainz U., Inst. Phys, 249Mainz U., Inst. Phys, 250Mainz U., Inst. Phys, 251Mainz U., Inst. Phys, 252Mainz U., Inst. Phys, 253Belarus State U, 254Belarus State U, 255Belarus State U, 256Belarus State U, 257Moscow, ITEP, 258Moscow, ITEP, 259Moscow, ITEP, 260Moscow, ITEP, 261Moscow, ITEP, 262Moscow, ITEP, 263Moscow, ITEP, 264Moscow Power Engineering Institute, 265Moscow Power Engineering Institute, 266Moscow Power Engineering Institute, 267Moscow Power Engineering Institute, 268Munich, Tech. U, 269Munich, Tech. U, 270Munich, Tech. U, 271Munich, Tech. U, 272Munich, Tech. U, 273Munich, Tech. U, 274Munich, Tech. U, 275Munster U., ITP, 276Munster U., ITP, 277Munster U., ITP, 278Munster U., ITP, 279Indian Inst. Tech., Mumbai, 280Novosibirsk, IYF, 281Novosibirsk, IYF, 282Novosibirsk, IYF, 283Novosibirsk, IYF, 284Orsay, IPN, 285Orsay, IPN, 286Orsay, IPN, 287Orsay, IPN, 288Orsay, IPN, 289Orsay, IPN, 290Orsay, IPN, 291Orsay, IPN, 292Orsay, IPN, 293Orsay, IPN, 294Otwock-Swierk, Inst. Atomic Energy, 295Otwock-Swierk, Inst. Atomic Energy, 296Otwock-Swierk, Inst. Atomic Energy, 297Otwock-Swierk, Inst. Atomic Energy, 298Pavia U. & INFN, Pavia, 299Pavia U. & INFN, Pavia, 300Pavia U. & INFN, Pavia, 301Pavia U. & INFN, Pavia, 302Pavia U. & INFN, Pavia, 303Pavia U. & INFN, Pavia, 304Pavia U. & INFN, Pavia, 305Pavia U. & INFN, Pavia, 306Serpukhov, IHEP, 307Serpukhov, IHEP, 308Serpukhov, IHEP, 309Serpukhov, IHEP, 310Serpukhov, IHEP, 311Serpukhov, IHEP, 312Serpukhov, IHEP, 313Serpukhov, IHEP, 314Serpukhov, IHEP, 315Serpukhov, IHEP, 316Serpukhov, IHEP, 317Serpukhov, IHEP, 318Serpukhov, IHEP, 319Serpukhov, IHEP, 320Serpukhov, IHEP, 321Serpukhov, IHEP, 322Serpukhov, IHEP, 323Serpukhov, IHEP, 324Serpukhov, IHEP, 325Serpukhov, IHEP, 326Serpukhov, IHEP, 327Serpukhov, IHEP, 328Serpukhov, IHEP, 329Royal Inst. Tech., Stockholm, 330Royal Inst. Tech., Stockholm, 331Stockholm U, 332Stockholm U, 333Stockholm U, 334St. Petersburg, INP, 335St. Petersburg, INP, 336St. Petersburg, INP, 337St. Petersburg, INP, 338St. Petersburg, INP, 339St. Petersburg, INP, 340St. Petersburg, INP, 341St. Petersburg, INP, 342St. Petersburg, INP, 343St. Petersburg, INP, 344St. Petersburg, INP, 345Piemonte Orientale U., Alessandria, 346Piemonte Orientale U., Alessandria, 347Turin U, 348Turin U, 349Turin U, 350Turin U, 351Turin U, 352Turin U, 353Turin U, 354Turin U, 355Turin U, 356Turin U, 357Turin U, 358Turin U, 359Turin U, 360Turin U, 361Turin U, 362Turin U, 363Turin U, 364INFN, Turin, 365INFN, Turin, 366INFN, Turin, 367INFN, Turin, 368INFN, Turin, 369INFN, Turin, 370INFN, Turin, 371INFN, Turin, 372INFN, Turin, 373INFN, Turin, 374INFN, Turin, 375INFN, Turin, 376INAF-IFSI Turin, 377Turin Polytechnic, 378Turin Polytechnic, 379INFN, Turin, 380Trieste U. & INFN, Trieste, 381Trieste U. & INFN, Trieste, 382Trieste U. & INFN, Trieste, 383Trieste U. & INFN, Trieste, 384Tubingen U, 385TSL Uppsala, 386Uppsala U, 387Uppsala U, 388Uppsala U, 389Uppsala U, 390Uppsala U, 391Uppsala U, 392Uppsala U, 393Uppsala U, 394Valencia U, 395Valencia U, 396Warsaw, Inst. Nucl. Studies, 397Warsaw, Inst. Nucl. Studies, 398Warsaw, Inst. Nucl. Studies, 399Warsaw, Inst. Nucl. Studies, 400Warsaw, Inst. Nucl. Studies, 401Warsaw, Inst. Nucl. Studies, 402Warsaw, Inst. Nucl. Studies, 403Warsaw, Inst. Nucl. Studies, 404Warsaw, Inst. Nucl. Studies, 405Warsaw, Inst. Nucl. Studies, 406Vienna, OAW, 407Vienna, OAW, 408Vienna, OAW, 409Vienna, OAW, 410Vienna, OAW, 411Vienna, OAW

This document is the Technical Design Report covering the two large spectrometer magnets of the PANDA detector set-up. It shows the conceptual design of the magnets and their anticipated performance. It precedes the tender and procurement of the magnets and, hence, is subject to possible modifications arising during this process. Read More

We propose a Gaussian scalar field theory in a curved 2D metric with an event horizon as the low-energy effective theory for a weakly confined, invariant Random Matrix ensemble (RME). The presence of an event horizon naturally generates a bath of Hawking radiation, which introduces a finite temperature in the model in a non-trivial way. A similar mapping with a gravitational analogue model has been constructed for a Bose-Einstein condensate (BEC) pushed to flow at a velocity higher than its speed of sound, with Hawking radiation as sound waves propagating over the cold atoms. Read More

2009Mar
Authors: PANDA Collaboration, W. Erni1, I. Keshelashvili2, B. Krusche3, M. Steinacher4, Y. Heng5, Z. Liu6, H. Liu7, X. Shen8, O. Wang9, H. Xu10, J. Becker11, F. Feldbauer12, F. -H. Heinsius13, T. Held14, H. Koch15, B. Kopf16, M. Pelizaeus17, T. Schroeder18, M. Steinke19, U. Wiedner20, J. Zhong21, A. Bianconi22, M. Bragadireanu23, D. Pantea24, A. Tudorache25, V. Tudorache26, M. De Napoli27, F. Giacoppo28, G. Raciti29, E. Rapisarda30, C. Sfienti31, E. Bialkowski32, A. Budzanowski33, B. Czech34, M. Kistryn35, S. Kliczewski36, A. Kozela37, P. Kulessa38, K. Pysz39, W. Schaefer40, R. Siudak41, A. Szczurek42, W. Czy. zycki43, M. Domagala44, M. Hawryluk45, E. Lisowski46, F. Lisowski47, L. Wojnar48, D. Gil49, P. Hawranek50, B. Kamys51, St. Kistryn52, K. Korcyl53, W. Krzemien54, A. Magiera55, P. Moskal56, Z. Rudy57, P. Salabura58, J. Smyrski59, A. Wronska60, M. Al-Turany61, I. Augustin62, H. Deppe63, H. Flemming64, J. Gerl65, K. Goetzen66, R. Hohler67, D. Lehmann68, B. Lewandowski69, J. Luehning70, F. Maas71, D. Mishra72, H. Orth73, K. Peters74, T. Saito75, G. Schepers76, C. J. Schmidt77, L. Schmitt78, C. Schwarz79, B. Voss80, P. Wieczorek81, A. Wilms82, K. -T. Brinkmann83, H. Freiesleben84, R. Jaekel85, R. Kliemt86, T. Wuerschig87, H. -G. Zaunick88, V. M. Abazov89, G. Alexeev90, A. Arefiev91, V. I. Astakhov92, M. Yu. Barabanov93, B. V. Batyunya94, Yu. I. Davydov95, V. Kh. Dodokhov96, A. A. Efremov97, A. G. Fedunov98, A. A. Feshchenko99, A. S. Galoyan100, S. Grigoryan101, A. Karmokov102, E. K. Koshurnikov103, V. Ch. Kudaev104, V. I. Lobanov105, Yu. Yu. Lobanov106, A. F. Makarov107, L. V. Malinina108, V. L. Malyshev109, G. A. Mustafaev110, A. Olshevski111, M. A. . Pasyuk112, E. A. Perevalova113, A. A. Piskun114, T. A. Pocheptsov115, G. Pontecorvo116, V. K. Rodionov117, Yu. N. Rogov118, R. A. Salmin119, A. G. Samartsev120, M. G. Sapozhnikov121, A. Shabratova122, G. S. Shabratova123, A. N. Skachkova124, N. B. Skachkov125, E. A. Strokovsky126, M. K. Suleimanov127, R. Sh. Teshev128, V. V. Tokmenin129, V. V. Uzhinsky130, A. S. Vodopianov131, S. A. Zaporozhets132, N. I. Zhuravlev133, A. G. Zorin134, D. Branford135, K. Foehl136, D. Glazier137, D. Watts138, P. Woods139, W. Eyrich140, A. Lehmann141, A. Teufel142, S. Dobbs143, Z. Metreveli144, K. Seth145, B. Tann146, A. Tomaradze147, D. Bettoni148, V. Carassiti149, A. Cecchi150, P. Dalpiaz151, E. Fioravanti152, I. Garzia153, M. Negrini154, M. Savri`e155, G. Stancari156, B. Dulach157, P. Gianotti158, C. Guaraldo159, V. Lucherini160, E. Pace161, A. Bersani162, M. Macri163, M. Marinelli164, R. F. Parodi165, I. Brodski166, W. Doering167, P. Drexler168, M. Dueren169, Z. Gagyi-Palffy170, A. Hayrapetyan171, M. Kotulla172, W. Kuehn173, S. Lange174, M. Liu175, V. Metag176, M. Nanova177, R. Novotny178, C. Salz179, J. Schneider180, P. Schoenmeier181, R. Schubert182, S. Spataro183, H. Stenzel184, C. Strackbein185, M. Thiel186, U. Thoering187, S. Yang188, T. Clarkson189, E. Cowie190, E. Downie191, G. Hill192, M. Hoek193, D. Ireland194, R. Kaiser195, T. Keri196, I. Lehmann197, K. Livingston198, S. Lumsden199, D. MacGregor200, B. McKinnon201, M. Murray202, D. Protopopescu203, G. Rosner204, B. Seitz205, G. Yang206, M. Babai207, A. K. Biegun208, A. Bubak209, E. Guliyev210, V. S. Jothi211, M. Kavatsyuk212, H. Loehner213, J. Messchendorp214, H. Smit215, J. C. van der Weele216, F. Garcia217, D. -O. Riska218, M. Buescher219, R. Dosdall220, R. Dzhygadlo221, A. Gillitzer222, D. Grunwald223, V. Jha224, G. Kemmerling225, H. Kleines226, A. Lehrach227, R. Maier228, M. Mertens229, H. Ohm230, D. Prasuhn231, T. Randriamalala232, J. Ritman233, M. Roeder234, T. Stockmanns235, P. Wintz236, P. Wuestner237, J. Kisiel238, S. Li239, Z. Li240, Z. Sun241, H. Xu242, S. Fissum243, K. Hansen244, L. Isaksson245, M. Lundin246, B. Schroeder247, P. Achenbach248, M. C. Mora Espi249, J. Pochodzalla250, S. Sanchez251, A. Sanchez-Lorente252, V. I. Dormenev253, A. A. Fedorov254, M. V. Korzhik255, O. V. Missevitch256, V. Balanutsa257, V. Chernetsky258, A. Demekhin259, A. Dolgolenko260, P. Fedorets261, A. Gerasimov262, V. Goryachev263, A. Boukharov264, O. Malyshev265, I. Marishev266, A. Semenov267, C. Hoeppner268, B. Ketzer269, I. Konorov270, A. Mann271, S. Neubert272, S. Paul273, Q. Weitzel274, A. Khoukaz275, T. Rausmann276, A. Taeschner277, J. Wessels278, R. Varma279, E. Baldin280, K. Kotov281, S. Peleganchuk282, Yu. Tikhonov283, J. Boucher284, T. Hennino285, R. Kunne286, S. Ong287, J. Pouthas288, B. Ramstein289, P. Rosier290, M. Sudol291, J. Van de Wiele292, T. Zerguerras293, K. Dmowski294, R. Korzeniewski295, D. Przemyslaw296, B. Slowinski297, G. Boca298, A. Braghieri299, S. Costanza300, A. Fontana301, P. Genova302, L. Lavezzi303, P. Montagna304, A. Rotondi305, N. I. Belikov306, A. M. Davidenko307, A. A. Derevschikov308, Y. M. Goncharenko309, V. N. Grishin310, V. A. Kachanov311, D. A. Konstantinov312, V. A. Kormilitsin313, V. I. Kravtsov314, Y. A. Matulenko315, Y. M. Melnik316, A. P. Meschanin317, N. G. Minaev318, V. V. Mochalov319, D. A. Morozov320, L. V. Nogach321, S. B. Nurushev322, A. V. Ryazantsev323, P. A. Semenov324, L. F. Soloviev325, A. V. Uzunian326, A. N. Vasiliev327, A. E. Yakutin328, T. Baeck329, B. Cederwall330, C. Bargholtz331, L. Geren332, P. E. Tegner333, S. Belostotski334, G. Gavrilov335, A. Itzotov336, A. Kisselev337, P. Kravchenko338, S. Manaenkov339, O. Miklukho340, Y. Naryshkin341, D. Veretennikov342, V. Vikhrov343, A. Zhadanov344, L. Fava345, D. Panzieri346, D. Alberto347, A. Amoroso348, E. Botta349, T. Bressani350, S. Bufalino351, M. P. Bussa352, L. Busso353, F. De Mori354, M. Destefanis355, L. Ferrero356, A. Grasso357, M. Greco358, T. Kugathasan359, M. Maggiora360, S. Marcello361, G. Serbanut362, S. Sosio363, R. Bertini364, D. Calvo365, S. Coli366, P. De Remigis367, A. Feliciello368, A. Filippi369, G. Giraudo370, G. Mazza371, A. Rivetti372, K. Szymanska373, F. Tosello374, R. Wheadon375, O. Morra376, M. Agnello377, F. Iazzi378, K. Szymanska379, R. Birsa380, F. Bradamante381, A. Bressan382, A. Martin383, H. Clement384, C. Ekstroem385, H. Calen386, S. Grape387, B. Hoeistad388, T. Johansson389, A. Kupsc390, P. Marciniewski391, E. Thome392, J. Zlomanczuk393, J. Diaz394, A. Ortiz395, S. Borsuk396, A. Chlopik397, Z. Guzik398, J. Kopec399, T. Kozlowski400, D. Melnychuk401, M. Plominski402, J. Szewinski403, K. Traczyk404, B. Zwieglinski405, P. Buehler406, A. Gruber407, P. Kienle408, J. Marton409, E. Widmann410, J. Zmeskal411, M. F. M. Lutz, B. Pire, O. Scholten, R. Timmermans
Affiliations: 1Basel U, 2Basel U, 3Basel U, 4Basel U, 5Beijing, Inst. High Energy Phys, 6Beijing, Inst. High Energy Phys, 7Beijing, Inst. High Energy Phys, 8Beijing, Inst. High Energy Phys, 9Beijing, Inst. High Energy Phys, 10Beijing, Inst. High Energy Phys, 11Ruhr U., Bochum, 12Ruhr U., Bochum, 13Ruhr U., Bochum, 14Ruhr U., Bochum, 15Ruhr U., Bochum, 16Ruhr U., Bochum, 17Ruhr U., Bochum, 18Ruhr U., Bochum, 19Ruhr U., Bochum, 20Ruhr U., Bochum, 21Ruhr U., Bochum, 22Brescia U, 23Bukarest-Magurele U, 24Bukarest-Magurele U, 25Bukarest-Magurele U, 26Bukarest-Magurele U, 27Catania U. & INFN, Catania, 28Catania U. & INFN, Catania, 29Catania U. & INFN, Catania, 30Catania U. & INFN, Catania, 31Catania U. & INFN, Catania, 32Cracow, INP, 33Cracow, INP, 34Cracow, INP, 35Cracow, INP, 36Cracow, INP, 37Cracow, INP, 38Cracow, INP, 39Cracow, INP, 40Cracow, INP, 41Cracow, INP, 42Cracow, INP, 43Cracow Tech. U, 44Cracow Tech. U, 45Cracow Tech. U, 46Cracow Tech. U, 47Cracow Tech. U, 48Cracow Tech. U, 49Jagiellonian U, 50Jagiellonian U, 51Jagiellonian U, 52Jagiellonian U, 53Jagiellonian U, 54Jagiellonian U, 55Jagiellonian U, 56Jagiellonian U, 57Jagiellonian U, 58Jagiellonian U, 59Jagiellonian U, 60Jagiellonian U, 61Darmstadt, GSI, 62Darmstadt, GSI, 63Darmstadt, GSI, 64Darmstadt, GSI, 65Darmstadt, GSI, 66Darmstadt, GSI, 67Darmstadt, GSI, 68Darmstadt, GSI, 69Darmstadt, GSI, 70Darmstadt, GSI, 71Darmstadt, GSI, 72Darmstadt, GSI, 73Darmstadt, GSI, 74Darmstadt, GSI, 75Darmstadt, GSI, 76Darmstadt, GSI, 77Darmstadt, GSI, 78Darmstadt, GSI, 79Darmstadt, GSI, 80Darmstadt, GSI, 81Darmstadt, GSI, 82Darmstadt, GSI, 83Dresden, Tech. U, 84Dresden, Tech. U, 85Dresden, Tech. U, 86Dresden, Tech. U, 87Dresden, Tech. U, 88Dresden, Tech. U, 89Dubna, JINR, 90Dubna, JINR, 91Dubna, JINR, 92Dubna, JINR, 93Dubna, JINR, 94Dubna, JINR, 95Dubna, JINR, 96Dubna, JINR, 97Dubna, JINR, 98Dubna, JINR, 99Dubna, JINR, 100Dubna, JINR, 101Dubna, JINR, 102Dubna, JINR, 103Dubna, JINR, 104Dubna, JINR, 105Dubna, JINR, 106Dubna, JINR, 107Dubna, JINR, 108Dubna, JINR, 109Dubna, JINR, 110Dubna, JINR, 111Dubna, JINR, 112Dubna, JINR, 113Dubna, JINR, 114Dubna, JINR, 115Dubna, JINR, 116Dubna, JINR, 117Dubna, JINR, 118Dubna, JINR, 119Dubna, JINR, 120Dubna, JINR, 121Dubna, JINR, 122Dubna, JINR, 123Dubna, JINR, 124Dubna, JINR, 125Dubna, JINR, 126Dubna, JINR, 127Dubna, JINR, 128Dubna, JINR, 129Dubna, JINR, 130Dubna, JINR, 131Dubna, JINR, 132Dubna, JINR, 133Dubna, JINR, 134Dubna, JINR, 135Edinburgh U, 136Edinburgh U, 137Edinburgh U, 138Edinburgh U, 139Edinburgh U, 140Erlangen - Nuremberg U, 141Erlangen - Nuremberg U, 142Erlangen - Nuremberg U, 143Northwestern U, 144Northwestern U, 145Northwestern U, 146Northwestern U, 147Northwestern U, 148Ferrara U. & INFN, Ferrara, 149Ferrara U. & INFN, Ferrara, 150Ferrara U. & INFN, Ferrara, 151Ferrara U. & INFN, Ferrara, 152Ferrara U. & INFN, Ferrara, 153Ferrara U. & INFN, Ferrara, 154Ferrara U. & INFN, Ferrara, 155Ferrara U. & INFN, Ferrara, 156Ferrara U. & INFN, Ferrara, 157Frascati, 158Frascati, 159Frascati, 160Frascati, 161Frascati, 162INFN, Genoa, 163INFN, Genoa, 164INFN, Genoa, 165INFN, Genoa, 166Giessen U, 167Giessen U, 168Giessen U, 169Giessen U, 170Giessen U, 171Giessen U, 172Giessen U, 173Giessen U, 174Giessen U, 175Giessen U, 176Giessen U, 177Giessen U, 178Giessen U, 179Giessen U, 180Giessen U, 181Giessen U, 182Giessen U, 183Giessen U, 184Giessen U, 185Giessen U, 186Giessen U, 187Giessen U, 188Giessen U, 189Glasgow U, 190Glasgow U, 191Glasgow U, 192Glasgow U, 193Glasgow U, 194Glasgow U, 195Glasgow U, 196Glasgow U, 197Glasgow U, 198Glasgow U, 199Glasgow U, 200Glasgow U, 201Glasgow U, 202Glasgow U, 203Glasgow U, 204Glasgow U, 205Glasgow U, 206Glasgow U, 207Groningen, KVI, 208Groningen, KVI, 209Groningen, KVI, 210Groningen, KVI, 211Groningen, KVI, 212Groningen, KVI, 213Groningen, KVI, 214Groningen, KVI, 215Groningen, KVI, 216Groningen, KVI, 217Helsinki U, 218Helsinki U, 219Julich, Forschungszentrum, 220Julich, Forschungszentrum, 221Julich, Forschungszentrum, 222Julich, Forschungszentrum, 223Julich, Forschungszentrum, 224Julich, Forschungszentrum, 225Julich, Forschungszentrum, 226Julich, Forschungszentrum, 227Julich, Forschungszentrum, 228Julich, Forschungszentrum, 229Julich, Forschungszentrum, 230Julich, Forschungszentrum, 231Julich, Forschungszentrum, 232Julich, Forschungszentrum, 233Julich, Forschungszentrum, 234Julich, Forschungszentrum, 235Julich, Forschungszentrum, 236Julich, Forschungszentrum, 237Julich, Forschungszentrum, 238Silesia U, 239Lanzhou, Inst. Modern Phys, 240Lanzhou, Inst. Modern Phys, 241Lanzhou, Inst. Modern Phys, 242Beijing, Inst. High Energy Phys, 243Lund U, 244Lund U, 245Lund U, 246Lund U, 247Lund U, 248Mainz U., Inst. Phys, 249Mainz U., Inst. Phys, 250Mainz U., Inst. Phys, 251Mainz U., Inst. Phys, 252Mainz U., Inst. Phys, 253Belarus State U, 254Belarus State U, 255Belarus State U, 256Belarus State U, 257Moscow, ITEP, 258Moscow, ITEP, 259Moscow, ITEP, 260Moscow, ITEP, 261Moscow, ITEP, 262Moscow, ITEP, 263Moscow, ITEP, 264Moscow Power Engineering Institute, 265Moscow Power Engineering Institute, 266Moscow Power Engineering Institute, 267Moscow Power Engineering Institute, 268Munich, Tech. U, 269Munich, Tech. U, 270Munich, Tech. U, 271Munich, Tech. U, 272Munich, Tech. U, 273Munich, Tech. U, 274Munich, Tech. U, 275Munster U., ITP, 276Munster U., ITP, 277Munster U., ITP, 278Munster U., ITP, 279Indian Inst. Tech., Mumbai, 280Novosibirsk, IYF, 281Novosibirsk, IYF, 282Novosibirsk, IYF, 283Novosibirsk, IYF, 284Orsay, IPN, 285Orsay, IPN, 286Orsay, IPN, 287Orsay, IPN, 288Orsay, IPN, 289Orsay, IPN, 290Orsay, IPN, 291Orsay, IPN, 292Orsay, IPN, 293Orsay, IPN, 294Otwock-Swierk, Inst. Atomic Energy, 295Otwock-Swierk, Inst. Atomic Energy, 296Otwock-Swierk, Inst. Atomic Energy, 297Otwock-Swierk, Inst. Atomic Energy, 298Pavia U. & INFN, Pavia, 299Pavia U. & INFN, Pavia, 300Pavia U. & INFN, Pavia, 301Pavia U. & INFN, Pavia, 302Pavia U. & INFN, Pavia, 303Pavia U. & INFN, Pavia, 304Pavia U. & INFN, Pavia, 305Pavia U. & INFN, Pavia, 306Serpukhov, IHEP, 307Serpukhov, IHEP, 308Serpukhov, IHEP, 309Serpukhov, IHEP, 310Serpukhov, IHEP, 311Serpukhov, IHEP, 312Serpukhov, IHEP, 313Serpukhov, IHEP, 314Serpukhov, IHEP, 315Serpukhov, IHEP, 316Serpukhov, IHEP, 317Serpukhov, IHEP, 318Serpukhov, IHEP, 319Serpukhov, IHEP, 320Serpukhov, IHEP, 321Serpukhov, IHEP, 322Serpukhov, IHEP, 323Serpukhov, IHEP, 324Serpukhov, IHEP, 325Serpukhov, IHEP, 326Serpukhov, IHEP, 327Serpukhov, IHEP, 328Serpukhov, IHEP, 329Royal Inst. Tech., Stockholm, 330Royal Inst. Tech., Stockholm, 331Stockholm U, 332Stockholm U, 333Stockholm U, 334St. Petersburg, INP, 335St. Petersburg, INP, 336St. Petersburg, INP, 337St. Petersburg, INP, 338St. Petersburg, INP, 339St. Petersburg, INP, 340St. Petersburg, INP, 341St. Petersburg, INP, 342St. Petersburg, INP, 343St. Petersburg, INP, 344St. Petersburg, INP, 345Piemonte Orientale U., Alessandria, 346Piemonte Orientale U., Alessandria, 347Turin U, 348Turin U, 349Turin U, 350Turin U, 351Turin U, 352Turin U, 353Turin U, 354Turin U, 355Turin U, 356Turin U, 357Turin U, 358Turin U, 359Turin U, 360Turin U, 361Turin U, 362Turin U, 363Turin U, 364INFN, Turin, 365INFN, Turin, 366INFN, Turin, 367INFN, Turin, 368INFN, Turin, 369INFN, Turin, 370INFN, Turin, 371INFN, Turin, 372INFN, Turin, 373INFN, Turin, 374INFN, Turin, 375INFN, Turin, 376INAF-IFSI Turin, 377Turin Polytechnic, 378Turin Polytechnic, 379INFN, Turin, 380Trieste U. & INFN, Trieste, 381Trieste U. & INFN, Trieste, 382Trieste U. & INFN, Trieste, 383Trieste U. & INFN, Trieste, 384Tubingen U, 385TSL Uppsala, 386Uppsala U, 387Uppsala U, 388Uppsala U, 389Uppsala U, 390Uppsala U, 391Uppsala U, 392Uppsala U, 393Uppsala U, 394Valencia U, 395Valencia U, 396Warsaw, Inst. Nucl. Studies, 397Warsaw, Inst. Nucl. Studies, 398Warsaw, Inst. Nucl. Studies, 399Warsaw, Inst. Nucl. Studies, 400Warsaw, Inst. Nucl. Studies, 401Warsaw, Inst. Nucl. Studies, 402Warsaw, Inst. Nucl. Studies, 403Warsaw, Inst. Nucl. Studies, 404Warsaw, Inst. Nucl. Studies, 405Warsaw, Inst. Nucl. Studies, 406Vienna, OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans, 407Vienna, OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans, 408Vienna, OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans, 409Vienna, OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans, 410Vienna, OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans, 411Vienna, OAW) , M.F.M. Lutz, B. Pire, O. Scholten, R. Timmermans

To study fundamental questions of hadron and nuclear physics in interactions of antiprotons with nucleons and nuclei, the universal PANDA detector will be built. Gluonic excitations, the physics of strange and charm quarks and nucleon structure studies will be performed with unprecedented accuracy thereby allowing high-precision tests of the strong interaction. The proposed PANDA detector is a state-of-the art internal target detector at the HESR at FAIR allowing the detection and identification of neutral and charged particles generated within the relevant angular and energy range. Read More

We argue that giant jumps of current at finite voltages observed in disordered samples of InO, TiN and YSi manifest a bistability caused by the overheating of electrons. One of the stable states is overheated and thus low-resistive, while the other, high-resistive state is heated much less by the same voltage. The bistability occurs provided that cooling of electrons is inefficient and the temperature dependence of the equilibrium resistance, R(T), is steep enough. Read More

2008Oct
Authors: PANDA Collaboration, W. Erni1, I. Keshelashvili2, B. Krusche3, M. Steinacher4, Y. Heng5, Z. Liu6, H. Liu7, X. Shen8, O. Wang9, H. Xu10, J. Becker11, F. Feldbauer12, F. -H. Heinsius13, T. Held14, H. Koch15, B. Kopf16, M. Pelizaeus17, T. Schroeder18, M. Steinke19, U. Wiedner20, J. Zhong21, A. Bianconi22, M. Bragadireanu23, D. Pantea24, A. Tudorache25, V. Tudorache26, M. De Napoli27, F. Giacoppo28, G. Raciti29, E. Rapisarda30, C. Sfienti31, E. Bialkowski32, A. Budzanowski33, B. Czech34, M. Kistryn35, S. Kliczewski36, A. Kozela37, P. Kulessa38, K. Pysz39, W. Schaefer40, R. Siudak41, A. Szczurek42, W. Czy. zycki43, M. Domagala44, M. Hawryluk45, E. Lisowski46, F. Lisowski47, L. Wojnar48, D. Gil49, P. Hawranek50, B. Kamys51, St. Kistryn52, K. Korcyl53, W. Krzemien54, A. Magiera55, P. Moskal56, Z. Rudy57, P. Salabura58, J. Smyrski59, A. Wronska60, M. Al-Turany61, I. Augustin62, H. Deppe63, H. Flemming64, J. Gerl65, K. Goetzen66, R. Hohler67, D. Lehmann68, B. Lewandowski69, J. Luehning70, F. Maas71, D. Mishra72, H. Orth73, K. Peters74, T. Saito75, G. Schepers76, C. J. Schmidt77, L. Schmitt78, C. Schwarz79, B. Voss80, P. Wieczorek81, A. Wilms82, K. -T. Brinkmann83, H. Freiesleben84, R. Jaekel85, R. Kliemt86, T. Wuerschig87, H. -G. Zaunick88, V. M. Abazov89, G. Alexeev90, A. Arefiev91, V. I. Astakhov92, M. Yu. Barabanov93, B. V. Batyunya94, Yu. I. Davydov95, V. Kh. Dodokhov96, A. A. Efremov97, A. G. Fedunov98, A. A. Feshchenko99, A. S. Galoyan100, S. Grigoryan101, A. Karmokov102, E. K. Koshurnikov103, V. Ch. Kudaev104, V. I. Lobanov105, Yu. Yu. Lobanov106, A. F. Makarov107, L. V. Malinina108, V. L. Malyshev109, G. A. Mustafaev110, A. Olshevski111, M. A. . Pasyuk112, E. A. Perevalova113, A. A. Piskun114, T. A. Pocheptsov115, G. Pontecorvo116, V. K. Rodionov117, Yu. N. Rogov118, R. A. Salmin119, A. G. Samartsev120, M. G. Sapozhnikov121, A. Shabratova122, G. S. Shabratova123, A. N. Skachkova124, N. B. Skachkov125, E. A. Strokovsky126, M. K. Suleimanov127, R. Sh. Teshev128, V. V. Tokmenin129, V. V. Uzhinsky130, A. S. Vodopianov131, S. A. Zaporozhets132, N. I. Zhuravlev133, A. G. Zorin134, D. Branford135, K. Foehl136, D. Glazier137, D. Watts138, P. Woods139, W. Eyrich140, A. Lehmann141, A. Teufel142, S. Dobbs143, Z. Metreveli144, K. Seth145, B. Tann146, A. Tomaradze147, D. Bettoni148, V. Carassiti149, A. Cecchi150, P. Dalpiaz151, E. Fioravanti152, I. Garzia153, M. Negrini154, M. Savri`e155, G. Stancari156, B. Dulach157, P. Gianotti158, C. Guaraldo159, V. Lucherini160, E. Pace161, A. Bersani162, M. Macri163, M. Marinelli164, R. F. Parodi165, I. Brodski166, W. Doering167, P. Drexler168, M. Dueren169, Z. Gagyi-Palffy170, A. Hayrapetyan171, M. Kotulla172, W. Kuehn173, S. Lange174, M. Liu175, V. Metag176, M. Nanova177, R. Novotny178, C. Salz179, J. Schneider180, P. Schoenmeier181, R. Schubert182, S. Spataro183, H. Stenzel184, C. Strackbein185, M. Thiel186, U. Thoering187, S. Yang188, T. Clarkson189, E. Cowie190, E. Downie191, G. Hill192, M. Hoek193, D. Ireland194, R. Kaiser195, T. Keri196, I. Lehmann197, K. Livingston198, S. Lumsden199, D. MacGregor200, B. McKinnon201, M. Murray202, D. Protopopescu203, G. Rosner204, B. Seitz205, G. Yang206, M. Babai207, A. K. Biegun208, A. Bubak209, E. Guliyev210, V. S. Jothi211, M. Kavatsyuk212, H. Loehner213, J. Messchendorp214, H. Smit215, J. C. van der Weele216, F. Garcia217, D. -O. Riska218, M. Buescher219, R. Dosdall220, R. Dzhygadlo221, A. Gillitzer222, D. Grunwald223, V. Jha224, G. Kemmerling225, H. Kleines226, A. Lehrach227, R. Maier228, M. Mertens229, H. Ohm230, D. Prasuhn231, T. Randriamalala232, J. Ritman233, M. Roeder234, T. Stockmanns235, P. Wintz236, P. Wuestner237, J. Kisiel238, S. Li239, Z. Li240, Z. Sun241, H. Xu242, S. Fissum243, K. Hansen244, L. Isaksson245, M. Lundin246, B. Schroeder247, P. Achenbach248, M. C. Mora Espi249, J. Pochodzalla250, S. Sanchez251, A. Sanchez-Lorente252, V. I. Dormenev253, A. A. Fedorov254, M. V. Korzhik255, O. V. Missevitch256, V. Balanutsa257, V. Chernetsky258, A. Demekhin259, A. Dolgolenko260, P. Fedorets261, A. Gerasimov262, V. Goryachev263, A. Boukharov264, O. Malyshev265, I. Marishev266, A. Semenov267, C. Hoeppner268, B. Ketzer269, I. Konorov270, A. Mann271, S. Neubert272, S. Paul273, Q. Weitzel274, A. Khoukaz275, T. Rausmann276, A. Taeschner277, J. Wessels278, R. Varma279, E. Baldin280, K. Kotov281, S. Peleganchuk282, Yu. Tikhonov283, J. Boucher284, T. Hennino285, R. Kunne286, S. Ong287, J. Pouthas288, B. Ramstein289, P. Rosier290, M. Sudol291, J. Van de Wiele292, T. Zerguerras293, K. Dmowski294, R. Korzeniewski295, D. Przemyslaw296, B. Slowinski297, G. Boca298, A. Braghieri299, S. Costanza300, A. Fontana301, P. Genova302, L. Lavezzi303, P. Montagna304, A. Rotondi305, N. I. Belikov306, A. M. Davidenko307, A. A. Derevschikov308, Y. M. Goncharenko309, V. N. Grishin310, V. A. Kachanov311, D. A. Konstantinov312, V. A. Kormilitsin313, V. I. Kravtsov314, Y. A. Matulenko315, Y. M. Melnik316, A. P. Meschanin317, N. G. Minaev318, V. V. Mochalov319, D. A. Morozov320, L. V. Nogach321, S. B. Nurushev322, A. V. Ryazantsev323, P. A. Semenov324, L. F. Soloviev325, A. V. Uzunian326, A. N. Vasiliev327, A. E. Yakutin328, T. Baeck329, B. Cederwall330, C. Bargholtz331, L. Geren332, P. E. Tegner333, S. Belostotski334, G. Gavrilov335, A. Itzotov336, A. Kisselev337, P. Kravchenko338, S. Manaenkov339, O. Miklukho340, Y. Naryshkin341, D. Veretennikov342, V. Vikhrov343, A. Zhadanov344, L. Fava345, D. Panzieri346, D. Alberto347, A. Amoroso348, E. Botta349, T. Bressani350, S. Bufalino351, M. P. Bussa352, L. Busso353, F. De Mori354, M. Destefanis355, L. Ferrero356, A. Grasso357, M. Greco358, T. Kugathasan359, M. Maggiora360, S. Marcello361, G. Serbanut362, S. Sosio363, R. Bertini364, D. Calvo365, S. Coli366, P. De Remigis367, A. Feliciello368, A. Filippi369, G. Giraudo370, G. Mazza371, A. Rivetti372, K. Szymanska373, F. Tosello374, R. Wheadon375, O. Morra376, M. Agnello377, F. Iazzi378, K. Szymanska379, R. Birsa380, F. Bradamante381, A. Bressan382, A. Martin383, H. Clement384, C. Ekstroem385, H. Calen386, S. Grape387, B. Hoeistad388, T. Johansson389, A. Kupsc390, P. Marciniewski391, E. Thome392, J. Zlomanczuk393, J. Diaz394, A. Ortiz395, S. Borsuk396, A. Chlopik397, Z. Guzik398, J. Kopec399, T. Kozlowski400, D. Melnychuk401, M. Plominski402, J. Szewinski403, K. Traczyk404, B. Zwieglinski405, P. Buehler406, A. Gruber407, P. Kienle408, J. Marton409, E. Widmann410, J. Zmeskal411
Affiliations: 1Basel U, 2Basel U, 3Basel U, 4Basel U, 5Beijing, Inst. High Energy Phys, 6Beijing, Inst. High Energy Phys, 7Beijing, Inst. High Energy Phys, 8Beijing, Inst. High Energy Phys, 9Beijing, Inst. High Energy Phys, 10Beijing, Inst. High Energy Phys, 11Ruhr U., Bochum, 12Ruhr U., Bochum, 13Ruhr U., Bochum, 14Ruhr U., Bochum, 15Ruhr U., Bochum, 16Ruhr U., Bochum, 17Ruhr U., Bochum, 18Ruhr U., Bochum, 19Ruhr U., Bochum, 20Ruhr U., Bochum, 21Ruhr U., Bochum, 22Brescia U, 23Bukarest-Magurele U, 24Bukarest-Magurele U, 25Bukarest-Magurele U, 26Bukarest-Magurele U, 27Catania U. & INFN, Catania, 28Catania U. & INFN, Catania, 29Catania U. & INFN, Catania, 30Catania U. & INFN, Catania, 31Catania U. & INFN, Catania, 32Cracow, INP, 33Cracow, INP, 34Cracow, INP, 35Cracow, INP, 36Cracow, INP, 37Cracow, INP, 38Cracow, INP, 39Cracow, INP, 40Cracow, INP, 41Cracow, INP, 42Cracow, INP, 43Cracow Tech. U, 44Cracow Tech. U, 45Cracow Tech. U, 46Cracow Tech. U, 47Cracow Tech. U, 48Cracow Tech. U, 49Jagiellonian U, 50Jagiellonian U, 51Jagiellonian U, 52Jagiellonian U, 53Jagiellonian U, 54Jagiellonian U, 55Jagiellonian U, 56Jagiellonian U, 57Jagiellonian U, 58Jagiellonian U, 59Jagiellonian U, 60Jagiellonian U, 61Darmstadt, GSI, 62Darmstadt, GSI, 63Darmstadt, GSI, 64Darmstadt, GSI, 65Darmstadt, GSI, 66Darmstadt, GSI, 67Darmstadt, GSI, 68Darmstadt, GSI, 69Darmstadt, GSI, 70Darmstadt, GSI, 71Darmstadt, GSI, 72Darmstadt, GSI, 73Darmstadt, GSI, 74Darmstadt, GSI, 75Darmstadt, GSI, 76Darmstadt, GSI, 77Darmstadt, GSI, 78Darmstadt, GSI, 79Darmstadt, GSI, 80Darmstadt, GSI, 81Darmstadt, GSI, 82Darmstadt, GSI, 83Dresden, Tech. U, 84Dresden, Tech. U, 85Dresden, Tech. U, 86Dresden, Tech. U, 87Dresden, Tech. U, 88Dresden, Tech. U, 89Dubna, JINR, 90Dubna, JINR, 91Dubna, JINR, 92Dubna, JINR, 93Dubna, JINR, 94Dubna, JINR, 95Dubna, JINR, 96Dubna, JINR, 97Dubna, JINR, 98Dubna, JINR, 99Dubna, JINR, 100Dubna, JINR, 101Dubna, JINR, 102Dubna, JINR, 103Dubna, JINR, 104Dubna, JINR, 105Dubna, JINR, 106Dubna, JINR, 107Dubna, JINR, 108Dubna, JINR, 109Dubna, JINR, 110Dubna, JINR, 111Dubna, JINR, 112Dubna, JINR, 113Dubna, JINR, 114Dubna, JINR, 115Dubna, JINR, 116Dubna, JINR, 117Dubna, JINR, 118Dubna, JINR, 119Dubna, JINR, 120Dubna, JINR, 121Dubna, JINR, 122Dubna, JINR, 123Dubna, JINR, 124Dubna, JINR, 125Dubna, JINR, 126Dubna, JINR, 127Dubna, JINR, 128Dubna, JINR, 129Dubna, JINR, 130Dubna, JINR, 131Dubna, JINR, 132Dubna, JINR, 133Dubna, JINR, 134Dubna, JINR, 135Edinburgh U, 136Edinburgh U, 137Edinburgh U, 138Edinburgh U, 139Edinburgh U, 140Erlangen - Nuremberg U, 141Erlangen - Nuremberg U, 142Erlangen - Nuremberg U, 143Northwestern U, 144Northwestern U, 145Northwestern U, 146Northwestern U, 147Northwestern U, 148Ferrara U. & INFN, Ferrara, 149Ferrara U. & INFN, Ferrara, 150Ferrara U. & INFN, Ferrara, 151Ferrara U. & INFN, Ferrara, 152Ferrara U. & INFN, Ferrara, 153Ferrara U. & INFN, Ferrara, 154Ferrara U. & INFN, Ferrara, 155Ferrara U. & INFN, Ferrara, 156Ferrara U. & INFN, Ferrara, 157Frascati, 158Frascati, 159Frascati, 160Frascati, 161Frascati, 162INFN, Genoa, 163INFN, Genoa, 164INFN, Genoa, 165INFN, Genoa, 166Giessen U, 167Giessen U, 168Giessen U, 169Giessen U, 170Giessen U, 171Giessen U, 172Giessen U, 173Giessen U, 174Giessen U, 175Giessen U, 176Giessen U, 177Giessen U, 178Giessen U, 179Giessen U, 180Giessen U, 181Giessen U, 182Giessen U, 183Giessen U, 184Giessen U, 185Giessen U, 186Giessen U, 187Giessen U, 188Giessen U, 189Glasgow U, 190Glasgow U, 191Glasgow U, 192Glasgow U, 193Glasgow U, 194Glasgow U, 195Glasgow U, 196Glasgow U, 197Glasgow U, 198Glasgow U, 199Glasgow U, 200Glasgow U, 201Glasgow U, 202Glasgow U, 203Glasgow U, 204Glasgow U, 205Glasgow U, 206Glasgow U, 207Groningen, KVI, 208Groningen, KVI, 209Groningen, KVI, 210Groningen, KVI, 211Groningen, KVI, 212Groningen, KVI, 213Groningen, KVI, 214Groningen, KVI, 215Groningen, KVI, 216Groningen, KVI, 217Helsinki U, 218Helsinki U, 219Julich, Forschungszentrum, 220Julich, Forschungszentrum, 221Julich, Forschungszentrum, 222Julich, Forschungszentrum, 223Julich, Forschungszentrum, 224Julich, Forschungszentrum, 225Julich, Forschungszentrum, 226Julich, Forschungszentrum, 227Julich, Forschungszentrum, 228Julich, Forschungszentrum, 229Julich, Forschungszentrum, 230Julich, Forschungszentrum, 231Julich, Forschungszentrum, 232Julich, Forschungszentrum, 233Julich, Forschungszentrum, 234Julich, Forschungszentrum, 235Julich, Forschungszentrum, 236Julich, Forschungszentrum, 237Julich, Forschungszentrum, 238Silesia U, 239Lanzhou, Inst. Modern Phys, 240Lanzhou, Inst. Modern Phys, 241Lanzhou, Inst. Modern Phys, 242Beijing, Inst. High Energy Phys, 243Lund U, 244Lund U, 245Lund U, 246Lund U, 247Lund U, 248Mainz U., Inst. Phys, 249Mainz U., Inst. Phys, 250Mainz U., Inst. Phys, 251Mainz U., Inst. Phys, 252Mainz U., Inst. Phys, 253Belarus State U, 254Belarus State U, 255Belarus State U, 256Belarus State U, 257Moscow, ITEP, 258Moscow, ITEP, 259Moscow, ITEP, 260Moscow, ITEP, 261Moscow, ITEP, 262Moscow, ITEP, 263Moscow, ITEP, 264Moscow Power Engineering Institute, 265Moscow Power Engineering Institute, 266Moscow Power Engineering Institute, 267Moscow Power Engineering Institute, 268Munich, Tech. U, 269Munich, Tech. U, 270Munich, Tech. U, 271Munich, Tech. U, 272Munich, Tech. U, 273Munich, Tech. U, 274Munich, Tech. U, 275Munster U., ITP, 276Munster U., ITP, 277Munster U., ITP, 278Munster U., ITP, 279Indian Inst. Tech., Mumbai, 280Novosibirsk, IYF, 281Novosibirsk, IYF, 282Novosibirsk, IYF, 283Novosibirsk, IYF, 284Orsay, IPN, 285Orsay, IPN, 286Orsay, IPN, 287Orsay, IPN, 288Orsay, IPN, 289Orsay, IPN, 290Orsay, IPN, 291Orsay, IPN, 292Orsay, IPN, 293Orsay, IPN, 294Otwock-Swierk, Inst. Atomic Energy, 295Otwock-Swierk, Inst. Atomic Energy, 296Otwock-Swierk, Inst. Atomic Energy, 297Otwock-Swierk, Inst. Atomic Energy, 298Pavia U. & INFN, Pavia, 299Pavia U. & INFN, Pavia, 300Pavia U. & INFN, Pavia, 301Pavia U. & INFN, Pavia, 302Pavia U. & INFN, Pavia, 303Pavia U. & INFN, Pavia, 304Pavia U. & INFN, Pavia, 305Pavia U. & INFN, Pavia, 306Serpukhov, IHEP, 307Serpukhov, IHEP, 308Serpukhov, IHEP, 309Serpukhov, IHEP, 310Serpukhov, IHEP, 311Serpukhov, IHEP, 312Serpukhov, IHEP, 313Serpukhov, IHEP, 314Serpukhov, IHEP, 315Serpukhov, IHEP, 316Serpukhov, IHEP, 317Serpukhov, IHEP, 318Serpukhov, IHEP, 319Serpukhov, IHEP, 320Serpukhov, IHEP, 321Serpukhov, IHEP, 322Serpukhov, IHEP, 323Serpukhov, IHEP, 324Serpukhov, IHEP, 325Serpukhov, IHEP, 326Serpukhov, IHEP, 327Serpukhov, IHEP, 328Serpukhov, IHEP, 329Royal Inst. Tech., Stockholm, 330Royal Inst. Tech., Stockholm, 331Stockholm U, 332Stockholm U, 333Stockholm U, 334St. Petersburg, INP, 335St. Petersburg, INP, 336St. Petersburg, INP, 337St. Petersburg, INP, 338St. Petersburg, INP, 339St. Petersburg, INP, 340St. Petersburg, INP, 341St. Petersburg, INP, 342St. Petersburg, INP, 343St. Petersburg, INP, 344St. Petersburg, INP, 345Piemonte Orientale U., Alessandria, 346Piemonte Orientale U., Alessandria, 347Turin U, 348Turin U, 349Turin U, 350Turin U, 351Turin U, 352Turin U, 353Turin U, 354Turin U, 355Turin U, 356Turin U, 357Turin U, 358Turin U, 359Turin U, 360Turin U, 361Turin U, 362Turin U, 363Turin U, 364INFN, Turin, 365INFN, Turin, 366INFN, Turin, 367INFN, Turin, 368INFN, Turin, 369INFN, Turin, 370INFN, Turin, 371INFN, Turin, 372INFN, Turin, 373INFN, Turin, 374INFN, Turin, 375INFN, Turin, 376INAF-IFSI Turin, 377Turin Polytechnic, 378Turin Polytechnic, 379INFN, Turin, 380Trieste U. & INFN, Trieste, 381Trieste U. & INFN, Trieste, 382Trieste U. & INFN, Trieste, 383Trieste U. & INFN, Trieste, 384Tubingen U, 385TSL Uppsala, 386Uppsala U, 387Uppsala U, 388Uppsala U, 389Uppsala U, 390Uppsala U, 391Uppsala U, 392Uppsala U, 393Uppsala U, 394Valencia U, 395Valencia U, 396Warsaw, Inst. Nucl. Studies, 397Warsaw, Inst. Nucl. Studies, 398Warsaw, Inst. Nucl. Studies, 399Warsaw, Inst. Nucl. Studies, 400Warsaw, Inst. Nucl. Studies, 401Warsaw, Inst. Nucl. Studies, 402Warsaw, Inst. Nucl. Studies, 403Warsaw, Inst. Nucl. Studies, 404Warsaw, Inst. Nucl. Studies, 405Warsaw, Inst. Nucl. Studies, 406Vienna, OAW, 407Vienna, OAW, 408Vienna, OAW, 409Vienna, OAW, 410Vienna, OAW, 411Vienna, OAW

This document presents the technical layout and the envisaged performance of the Electromagnetic Calorimeter (EMC) for the PANDA target spectrometer. The EMC has been designed to meet the physics goals of the PANDA experiment, which is being developed for the Facility for Antiproton and Ion Research (FAIR) at Darmstadt, Germany. The performance figures are based on extensive prototype tests and radiation hardness studies. Read More

2008Jul
Authors: B. I. Abelev, M. M. Aggarwal, Z. Ahammed, B. D. Anderson, D. Arkhipkin, G. S. Averichev, Y. Bai, J. Balewski, O. Barannikova, L. S. Barnby, J. Baudot, S. Baumgart, D. R. Beavis, R. Bellwied, F. Benedosso, R. R. Betts, S. Bhardwaj, A. Bhasin, A. K. Bhati, H. Bichsel, J. Bielcik, J. Bielcikova, B. Biritz, L. C. Bland, M. Bombara, B. E. Bonner, M. Botje, J. Bouchet, E. Braidot, A. V. Brandin, S. Bueltmann, T. P. Burton, M. Bystersky, X. Z. Cai, H. Caines, M. Calderón de la Barca Sánchez, J. Callner, O. Catu, D. Cebra, R. Cendejas, M. C. Cervantes, Z. Chajecki, P. Chaloupka, S. Chattopadhyay, H. F. Chen, J. H. Chen, J. Y. Chen, J. Cheng, M. Cherney, A. Chikanian, K. E. Choi, W. Christie, S. U. Chung, R. F. Clarke, M. J. M. Codrington, J. P. Coffin, T. M. Cormier, M. R. Cosentino, J. G. Cramer, H. J. Crawford, D. Das, S. Dash, M. Daugherity, T. G. Dedovich, M. DePhillips, A. A. Derevschikov, R. Derradi de Souza, L. Didenko, P. Djawotho, S. M. Dogra, X. Dong, J. L. Drachenberg, J. E. Draper, F. Du, J. C. Dunlop, M. R. Dutta Mazumdar, W. R. Edwards, L. G. Efimov, E. Elhalhuli, M. Elnimr, V. Emelianov, J. Engelage, G. Eppley, B. Erazmus, M. Estienne, L. Eun, P. Fachini, R. Fatemi, J. Fedorisin, A. Feng, P. Filip, E. Finch, V. Fine, Y. Fisyak, C. A. Gagliardi, L. Gaillard, D. R. Gangadharan, M. S. Ganti, E. Garcia-Solis, V. Ghazikhanian, P. Ghosh, Y. N. Gorbunov, A. Gordon, O. Grebenyuk, D. Grosnick, B. Grube, S. M. Guertin, K. S. F. F. Guimaraes, A. Gupta, N. Gupta, W. Guryn, B. Haag, T. J. Hallman, A. Hamed, J. W. Harris, W. He, M. Heinz, S. Heppelmann, B. Hippolyte, A. Hirsch, A. M. Hoffman, G. W. Hoffmann, D. J. Hofman, R. S. Hollis, H. Z. Huang, T. J. Humanic, G. Igo, A. Iordanova, P. Jacobs, W. W. Jacobs, P. Jakl, F. Jin, P. G. Jones, E. G. Judd, S. Kabana, K. Kajimoto, K. Kang, J. Kapitan, M. Kaplan, D. Keane, A. Kechechyan, D. Kettler, V. Yu. Khodyrev, J. Kiryluk, A. Kisiel, S. R. Klein, A. G. Knospe, A. Kocoloski, D. D. Koetke, M. Kopytine, L. Kotchenda, V. Kouchpil, P. Kravtsov, V. I. Kravtsov, K. Krueger, C. Kuhn, L. Kumar, P. Kurnadi, M. A. C. Lamont, J. M. Landgraf, S. LaPointe, J. Lauret, A. Lebedev, R. Lednicky, C-H. Lee, M. J. LeVine, C. Li, Y. Li, G. Lin, X. Lin, S. J. Lindenbaum, M. A. Lisa, F. Liu, J. Liu, L. Liu, T. Ljubicic, W. J. Llope, R. S. Longacre, W. A. Love, Y. Lu, T. Ludlam, D. Lynn, G. L. Ma, Y. G. Ma, D. P. Mahapatra, R. Majka, L. K. Mangotra, R. Manweiler, S. Margetis, C. Markert, H. S. Matis, Yu. A. Matulenko, T. S. McShane, A. Meschanin, J. Millane, M. L. Miller, N. G. Minaev, S. Mioduszewski, A. Mischke, J. Mitchell, B. Mohanty, D. A. Morozov, M. G. Munhoz, B. K. Nandi, C. Nattrass, T. K. Nayak, J. M. Nelson, C. Nepali, P. K. Netrakanti, M. J. Ng, L. V. Nogach, S. B. Nurushev, G. Odyniec, A. Ogawa, H. Okada, V. Okorokov, D. Olson, M. Pachr, S. K. Pal, Y. Panebratsev, T. Pawlak, T. Peitzmann, V. Perevoztchikov, C. Perkins, W. Peryt, S. C. Phatak, M. Planinic, J. Pluta, N. Poljak, N. Porile, A. M. Poskanzer, B. V. K. S. Potukuchi, D. Prindle, C. Pruneau, N. K. Pruthi, J. Putschke, I. A. Qattan, R. Raniwala, S. Raniwala, R. L. Ray, A. Ridiger, H. G. Ritter, J. B. Roberts, O. V. Rogachevskiy, J. L. Romero, A. Rose, C. Roy, L. Ruan, M. J. Russcher, V. Rykov, R. Sahoo, I. Sakrejda, T. Sakuma, S. Salur, J. Sandweiss, M. Sarsour, J. Schambach, R. P. Scharenberg, N. Schmitz, J. Seger, I. Selyuzhenkov, P. Seyboth, A. Shabetai, E. Shahaliev, M. Shao, M. Sharma, S. S. Shi, X-H. Shi, E. P. Sichtermann, F. Simon, R. N. Singaraju, M. J. Skoby, N. Smirnov, R. Snellings, P. Sorensen, J. Sowinski, H. M. Spinka, B. Srivastava, A. Stadnik, T. D. S. Stanislaus, D. Staszak, M. Strikhanov, B. Stringfellow, A. A. P. Suaide, M. C. Suarez, N. L. Subba, M. Sumbera, X. M. Sun, Y. Sun, Z. Sun, B. Surrow, T. J. M. Symons, A. Szanto de Toledo, J. Takahashi, A. H. Tang, Z. Tang, T. Tarnowsky, D. Thein, J. H. Thomas, J. Tian, A. R. Timmins, S. Timoshenko, M. Tokarev, T. A. Trainor, V. N. Tram, A. L. Trattner, S. Trentalange, R. E. Tribble, O. D. Tsai, J. Ulery, T. Ullrich, D. G. Underwood, G. Van Buren, N. van der Kolk, M. van Leeuwen, A. M. Vander Molen, R. Varma, G. M. S. Vasconcelos, I. M. Vasilevski, A. N. Vasiliev, F. Videbaek, S. E. Vigdor, Y. P. Viyogi, S. Vokal, S. A. Voloshin, M. Wada, W. T. Waggoner, F. Wang, G. Wang, J. S. Wang, Q. Wang, X. Wang, X. L. Wang, Y. Wang, J. C. Webb, G. D. Westfall, C. Whitten Jr., H. Wieman, S. W. Wissink, R. Witt, J. Wu, Y. Wu, N. Xu, Q. H. Xu, Y. Xu, Z. Xu, P. Yepes, I-K. Yoo, Q. Yue, M. Zawisza, H. Zbroszczyk, W. Zhan, H. Zhang, S. Zhang, W. M. Zhang, Y. Zhang, Z. P. Zhang, Y. Zhao, C. Zhong, J. Zhou, R. Zoulkarneev, Y. Zoulkarneeva, J. X. Zuo