V. Kozlov - EPECUR Collaboration and GW INS Data Analysis Center

V. Kozlov
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V. Kozlov
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EPECUR Collaboration and GW INS Data Analysis Center
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High Energy Physics - Experiment (19)
 
Physics - Instrumentation and Detectors (15)
 
Nuclear Experiment (12)
 
High Energy Physics - Phenomenology (7)
 
Mathematics - Analysis of PDEs (7)
 
Mathematics - Mathematical Physics (6)
 
Mathematical Physics (6)
 
Cosmology and Nongalactic Astrophysics (5)
 
Mathematics - Dynamical Systems (3)
 
Physics - Other (2)
 
Quantitative Biology - Populations and Evolution (2)
 
Mathematics - Spectral Theory (2)
 
Nonlinear Sciences - Adaptation and Self-Organizing Systems (2)
 
Physics - Optics (2)
 
Nuclear Theory (1)
 
Nonlinear Sciences - Exactly Solvable and Integrable Systems (1)
 
High Energy Astrophysical Phenomena (1)
 
Physics - Materials Science (1)
 
Instrumentation and Methods for Astrophysics (1)
 
Physics - Classical Physics (1)
 
Quantitative Biology - Quantitative Methods (1)

Publications Authored By V. Kozlov

We consider a natural Hamiltonian system with two degrees of freedom and Hamiltonian $H=\|p\|^2/2+V(q)$. The configuration space $M$ is a closed surface (for noncompact $M$ certain conditions at infinity are required). It is well known that if the potential energy $V$ has $n>2\chi(M)$ Newtonian singularities, then the system is not integrable and has positive topological entropy on energy levels $H=h>\sup V$. Read More

2017Apr

We report recent achievements in the development of scintillating bolometers to search for neutrinoless double-beta decay of $^{100}$Mo. The presented results have been obtained in the framework of the LUMINEU, LUCIFER and EDELWEISS collaborations, and are now part of the R\&D activities towards CUPID (CUORE Update with Particle IDentification), a proposed next-generation double-beta decay experiment based on the CUORE experience. We have developed a technology for the production of large mass ($\sim$1 kg), high optical quality, radiopure zinc and lithium molybdate crystal scintillators (ZnMoO$_4$ and Li$_2$MoO$_4$, respectively) from deeply purified natural and $^{100}$Mo-enriched molybdenum. Read More

We investigate the formation of stable ecological networks where many species share the same resource. We show that such stable ecosystem naturally occurs as a result of extinctions. We obtain an analytical relation for the number of coexisting species and find a relation describing how many species that may go extinct as a result of a sharp environmental change. Read More

We consider a system of nonlinear partial differential equations that describes an age-structured population inhabiting several temporally varying patches. We prove existence and uniqueness of solution and analyze its large-time behavior in cases when the environment is constant and when it changes periodically. A pivotal assumption is that individuals can disperse and that each patch can be reached from every other patch, directly or through several intermediary patches. Read More

Exclusive $\rho^0$-meson electroproduction is studied by the HERMES experiment, using the 27.6 GeV longitudinally polarized electron/positron beam of HERA and a transversely polarized hydrogen target, in the kinematic region 1.0 GeV$^2$Read More

We study a scattering on an ultra-low potential in zigzag graphene nanoribbon. Using mathematical framework based on the continuous Dirac model and augumented scattering matrix, we derive a condition for the existence of a trapped mode. We consider the threshold energies where the continuous spectrum changes its multiplicity and show that the trapped modes may appear for energies slightly less than a threshold and its multiplicity does not exceeds one. Read More

The problem for two-dimensional steady water waves with vorticity is considered. Using methods of spatial dynamics, we reduce the problem to a finite dimensional Hamiltonian system. As an application, we prove the existence of non-symmetric steady water waves when the number of roots of the dispersion equation is greater than 1. Read More

The problem for two-dimensional steady gravity driven water waves with vorticity is investigated. Using a multidimensional bifurcation argument, we prove the existence of small-amplitude periodic steady waves with an arbitrary number of crests per period. The role of bifurcation parameters is played by the roots of the dispersion equation. Read More

The two-dimensional free-boundary problem describing steady gravity waves with vorticity on water of finite depth is considered. Bounds for stream functions as well as free-surface profiles and the total head are obtained under the assumption that the vorticity distribution is a locally Lipschitz function. It is also shown that wave flows have counter-currents in the case when the infimum of the free surface profile exceeds a certain critical value. Read More

Pulsed cathodoluminescence (PCL) spectra of ultra-pure SiO2, GeO2, SnO2, TiO2, La2O3, Y2O3, Sc2O3, CaCO3 powders and {\alpha}-quartz, Ca:YVO4, LiNbO3 and Sc:LiNbO3 crystals were studied under the same experimental conditions. It was found that PCL spectra of SiO2, SnO2, GeO2, TiO2, La2O3 and CaCO3 powders contain a common band with maximum intensity at 500 nm, PCL spectra of samples Y2O3, Sc2O3, PbWO4 and Ca:YVO4 contain a common band at 490 nm and PCL spectra of LiNbO3 and Sc:LiNbO3 crystals contain a common band at 507 nm. It was found that the average intensity of the PCL spectra and position of the maximum intensity of these common bands depend on the type of a band gap transition of the material. Read More

The optical theorem relates the total scattering cross-section of a given structure with its forward scattering, but does not impose any restrictions on other directions. Strong backward-forward asymmetry in scattering could be achieved by exploring retarded coupling between particles, exhibiting both electric and magnetic resonances. Here, a hybrid magneto-electric particle (HMEP), consisting of a split ring resonator acting as a magnetic dipole and a wire antenna acting as an electric dipole, is shown to possess asymmetric scattering properties. Read More

We consider a system of nonlinear partial differential equations that describes an age-structured population living in changing environment on $N$ patches. We prove existence and uniqueness of solution and analyze large time behavior of the system in time-independent case, for periodically changing and for irregularly varying environment. Under the assumption that every patch can be reached from every other patch, directly or through several intermediary patches, and that net reproductive operator has spectral radius larger than one, we prove that population is persistent on all patches. Read More

Nonlinear light-matter interactions and their applications are constrained by properties of available materials. The use of metamaterials opens the way to achieve precise control over electromagnetic properties at a microscopic level, providing new tools for experimental studies of complex nonlinear phenomena in photonics. Here a doubly resonant nonlinear meta-atom is proposed, analyzed and characterized in the GHz spectral range. Read More

We report on a dark matter search for a Weakly Interacting Massive Particle (WIMP) in the mass range $m_\chi \in [4, 30]\,\mathrm{GeV}/c^2$ with the EDELWEISS-III experiment. A 2D profile likelihood analysis is performed on data from eight selected detectors with the lowest energy thresholds leading to a combined fiducial exposure of 496 kg-days. External backgrounds from $\gamma$- and $\beta$-radiation, recoils from $^{206}$Pb and neutrons as well as detector intrinsic backgrounds were modelled from data outside the region of interest and constrained in the analysis. Read More

2016Jul
Authors: CBM Collaboration, T. Ablyazimov, A. Abuhoza, R. P. Adak, M. Adamczyk, K. Agarwal, M. M. Aggarwal, Z. Ahammed, F. Ahmad, N. Ahmad, S. Ahmad, A. Akindinov, P. Akishin, E. Akishina, T. Akishina, V. Akishina, A. Akram, M. Al-Turany, I. Alekseev, E. Alexandrov, I. Alexandrov, S. Amar-Youcef, M. Anđelić, O. Andreeva, C. Andrei, A. Andronic, Yu. Anisimov, H. Appelshäuser, D. Argintaru, E. Atkin, S. Avdeev, R. Averbeck, M. D. Azmi, V. Baban, M. Bach, E. Badura, S. Bähr, T. Balog, M. Balzer, E. Bao, N. Baranova, T. Barczyk, D. Bartoş, S. Bashir, M. Baszczyk, O. Batenkov, V. Baublis, M. Baznat, J. Becker, K. -H. Becker, S. Belogurov, D. Belyakov, J. Bendarouach, I. Berceanu, A. Bercuci, A. Berdnikov, Y. Berdnikov, R. Berendes, G. Berezin, C. Bergmann, D. Bertini, O. Bertini, C. Beşliu, O. Bezshyyko, P. P. Bhaduri, A. Bhasin, A. K. Bhati, B. Bhattacharjee, A. Bhattacharyya, T. K. Bhattacharyya, S. Biswas, T. Blank, D. Blau, V. Blinov, C. Blume, Yu. Bocharov, J. Book, T. Breitner, U. Brüning, J. Brzychczyk, A. Bubak, H. Büsching, T. Bus, V. Butuzov, A. Bychkov, A. Byszuk, Xu Cai, M. Cálin, Ping Cao, G. Caragheorgheopol, I. Carević, V. Cătănescu, A. Chakrabarti, S. Chattopadhyay, A. Chaus, Hongfang Chen, LuYao Chen, Jianping Cheng, V. Chepurnov, H. Cherif, A. Chernogorov, M. I. Ciobanu, G. Claus, F. Constantin, M. Csanád, N. D'Ascenzo, Supriya Das, Susovan Das, J. de Cuveland, B. Debnath, D. Dementiev, Wendi Deng, Zhi Deng, H. Deppe, I. Deppner, O. Derenovskaya, C. A. Deveaux, M. Deveaux, K. Dey, M. Dey, P. Dillenseger, V. Dobyrn, D. Doering, Sheng Dong, A. Dorokhov, M. Dreschmann, A. Drozd, A. K. Dubey, S. Dubnichka, Z. Dubnichkova, M. Dürr, L. Dutka, M. Dželalija, V. V. Elsha, D. Emschermann, H. Engel, V. Eremin, T. Eşanu, J. Eschke, D. Eschweiler, Huanhuan Fan, Xingming Fan, M. Farooq, O. Fateev, Shengqin Feng, S. P. D. Figuli, I. Filozova, D. Finogeev, P. Fischer, H. Flemming, J. Förtsch, U. Frankenfeld, V. Friese, E. Friske, I. Fröhlich, J. Frühauf, J. Gajda, T. Galatyuk, G. Gangopadhyay, C. García Chávez, J. Gebelein, P. Ghosh, S. K. Ghosh, S. Gläßel, M. Goffe, L. Golinka-Bezshyyko, V. Golovatyuk, S. Golovnya, V. Golovtsov, M. Golubeva, D. Golubkov, A. Gómez Ramírez, S. Gorbunov, S. Gorokhov, D. Gottschalk, P. Gryboś, A. Grzeszczuk, F. Guber, K. Gudima, M. Gumiński, A. Gupta, Yu. Gusakov, Dong Han, H. Hartmann, Shue He, J. Hehner, N. Heine, A. Herghelegiu, N. Herrmann, B. Heß, J. M. Heuser, A. Himmi, C. Höhne, R. Holzmann, Dongdong Hu, Guangming Huang, Xinjie Huang, D. Hutter, A. Ierusalimov, E. -M. Ilgenfritz, M. Irfan, D. Ivanischev, M. Ivanov, P. Ivanov, Valery Ivanov, Victor Ivanov, Vladimir Ivanov, A. Ivashkin, K. Jaaskelainen, H. Jahan, V. Jain, V. Jakovlev, T. Janson, Di Jiang, A. Jipa, I. Kadenko, P. Kähler, B. Kämpfer, V. Kalinin, J. Kallunkathariyil, K. -H. Kampert, E. Kaptur, R. Karabowicz, O. Karavichev, T. Karavicheva, D. Karmanov, V. Karnaukhov, E. Karpechev, K. Kasiński, G. Kasprowicz, M. Kaur, A. Kazantsev, U. Kebschull, G. Kekelidze, M. M. Khan, S. A. Khan, A. Khanzadeev, F. Khasanov, A. Khvorostukhin, V. Kirakosyan, M. Kirejczyk, A. Kiryakov, M. Kiš, I. Kisel, P. Kisel, S. Kiselev, T. Kiss, P. Klaus, R. Kłeczek, Ch. Klein-Bösing, V. Kleipa, V. Klochkov, P. Kmon, K. Koch, L. Kochenda, P. Koczoń, W. Koenig, M. Kohn, B. W. Kolb, A. Kolosova, B. Komkov, M. Korolev, I. Korolko, R. Kotte, A. Kovalchuk, S. Kowalski, M. Koziel, G. Kozlov, V. Kozlov, V. Kramarenko, P. Kravtsov, E. Krebs, C. Kreidl, I. Kres, D. Kresan, G. Kretschmar, M. Krieger, A. V. Kryanev, E. Kryshen, M. Kuc, W. Kucewicz, V. Kucher, L. Kudin, A. Kugler, Ajit Kumar, Ashwini Kumar, L. Kumar, J. Kunkel, A. Kurepin, N. Kurepin, A. Kurilkin, P. Kurilkin, V. Kushpil, S. Kuznetsov, V. Kyva, V. Ladygin, C. Lara, P. Larionov, A. Laso García, E. Lavrik, I. Lazanu, A. Lebedev, S. Lebedev, E. Lebedeva, J. Lehnert, J. Lehrbach, Y. Leifels, F. Lemke, Cheng Li, Qiyan Li, Xin Li, Yuanjing Li, V. Lindenstruth, B. Linnik, Feng Liu, I. Lobanov, E. Lobanova, S. Löchner, P. -A. Loizeau, S. A. Lone, J. A. Lucio Martínez, Xiaofeng Luo, A. Lymanets, Pengfei Lyu, A. Maevskaya, S. Mahajan, D. P. Mahapatra, T. Mahmoud, P. Maj, Z. Majka, A. Malakhov, E. Malankin, D. Malkevich, O. Malyatina, H. Malygina, M. M. Mandal, S. Mandal, V. Manko, S. Manz, A. M. Marin Garcia, J. Markert, S. Masciocchi, T. Matulewicz, L. Meder, M. Merkin, V. Mialkovski, J. Michel, N. Miftakhov, L. Mik, K. Mikhailov, V. Mikhaylov, B. Milanović, V. Militsija, D. Miskowiec, I. Momot, T. Morhardt, S. Morozov, W. F. J. Müller, C. Müntz, S. Mukherjee, C. E. Muńoz Castillo, Yu. Murin, R. Najman, C. Nandi, E. Nandy, L. Naumann, T. Nayak, A. Nedosekin, V. S. Negi, W. Niebur, V. Nikulin, D. Normanov, A. Oancea, Kunsu Oh, Yu. Onishchuk, G. Ososkov, P. Otfinowski, E. Ovcharenko, S. Pal, I. Panasenko, N. R. Panda, S. Parzhitskiy, V. Patel, C. Pauly, M. Penschuck, D. Peshekhonov, V. Peshekhonov, V. Petráček, M. Petri, M. Petriş, A. Petrovici, M. Petrovici, A. Petrovskiy, O. Petukhov, D. Pfeifer, K. Piasecki, J. Pieper, J. Pietraszko, R. Płaneta, V. Plotnikov, V. Plujko, J. Pluta, A. Pop, V. Pospisil, K. Poźniak, A. Prakash, S. K. Prasad, M. Prokudin, I. Pshenichnov, M. Pugach, V. Pugatch, S. Querchfeld, S. Rabtsun, L. Radulescu, S. Raha, F. Rami, R. Raniwala, S. Raniwala, A. Raportirenko, J. Rautenberg, J. Rauza, R. Ray, S. Razin, P. Reichelt, S. Reinecke, A. Reinefeld, A. Reshetin, C. Ristea, O. Ristea, A. Rodriguez Rodriguez, F. Roether, R. Romaniuk, A. Rost, E. Rostchin, I. Rostovtseva, Amitava Roy, Ankhi Roy, J. Rożynek, Yu. Ryabov, A. Sadovsky, R. Sahoo, P. K. Sahu, S. K. Sahu, J. Saini, S. Samanta, S. S. Sambyal, V. Samsonov, J. Sánchez Rosado, O. Sander, S. Sarangi, T. Satława, S. Sau, V. Saveliev, S. Schatral, C. Schiaua, F. Schintke, C. J. Schmidt, H. R. Schmidt, K. Schmidt, J. Scholten, K. Schweda, F. Seck, S. Seddiki, I. Selyuzhenkov, A. Semennikov, A. Senger, P. Senger, A. Shabanov, A. Shabunov, Ming Shao, A. D. Sheremetiev, Shusu Shi, N. Shumeiko, V. Shumikhin, I. Sibiryak, B. Sikora, A. Simakov, C. Simon, C. Simons, R. N. Singaraju, A. K. Singh, B. K. Singh, C. P. Singh, V. Singhal, M. Singla, P. Sitzmann, K. Siwek-Wilczyńska, L. Škoda, I. Skwira-Chalot, I. Som, Guofeng Song, Jihye Song, Z. Sosin, D. Soyk, P. Staszel, M. Strikhanov, S. Strohauer, J. Stroth, C. Sturm, R. Sultanov, Yongjie Sun, D. Svirida, O. Svoboda, A. Szabó, R. Szczygieł, R. Talukdar, Zebo Tang, M. Tanha, J. Tarasiuk, O. Tarassenkova, M. -G. Târzilă, M. Teklishyn, T. Tischler, P. Tlustý, T. Tölyhi, A. Toia, N. Topil'skaya, M. Träger, S. Tripathy, I. Tsakov, Yu. Tsyupa, A. Turowiecki, N. G. Tuturas, F. Uhlig, E. Usenko, I. Valin, D. Varga, I. Vassiliev, O. Vasylyev, E. Verbitskaya, W. Verhoeven, A. Veshikov, R. Visinka, Y. P. Viyogi, S. Volkov, A. Volochniuk, A. Vorobiev, Aleksey Voronin, Alexander Voronin, V. Vovchenko, M. Vznuzdaev, Dong Wang, Xi-Wei Wang, Yaping Wang, Yi Wang, M. Weber, C. Wendisch, J. P. Wessels, M. Wiebusch, J. Wiechula, D. Wielanek, A. Wieloch, A. Wilms, N. Winckler, M. Winter, K. Wiśniewski, Gy. Wolf, Sanguk Won, Ke-Jun Wu, J. Wüstenfeld, Changzhou Xiang, Nu Xu, Junfeng Yang, Rongxing Yang, Zhongbao Yin, In-Kwon Yoo, B. Yuldashev, I. Yushmanov, W. Zabołotny, Yu. Zaitsev, N. I. Zamiatin, Yu. Zanevsky, M. Zhalov, Yifei Zhang, Yu Zhang, Lei Zhao, Jiajun Zheng, Sheng Zheng, Daicui Zhou, Jing Zhou, Xianglei Zhu, A. Zinchenko, W. Zipper, M. Żoładź, P. Zrelov, V. Zryuev, P. Zumbruch, M. Zyzak

Substantial experimental and theoretical efforts worldwide are devoted to explore the phase diagram of strongly interacting matter. At LHC and top RHIC energies, QCD matter is studied at very high temperatures and nearly vanishing net-baryon densities. There is evidence that a Quark-Gluon-Plasma (QGP) was created at experiments at RHIC and LHC. Read More

The EDELWEISS-III direct dark matter search experiment uses cryogenic HP-Ge detectors Fully covered with Inter-Digitized electrodes (FID). They are operated at low fields ($<1\;\mathrm{V/cm}$), and as a consequence charge-carrier trapping significantly affects both the ionization and heat energy measurements. This paper describes an analytical model of the signals induced by trapped charges in FID detectors based on the Shockley-Ramo theorem. Read More

Electromagnetic scattering in accelerating reference frames inspires a variety of phenomena, requiring employment of general relativity for their description. While the quasi-stationary field analysis could be applied to slowly-accelerating bodies as a first-order approximation, the scattering problem remains fundamentally nonlinear in boundary conditions, giving rise to multiple frequency generation (micro-Doppler shifts). Here a frequency comb, generated by an axially rotating subwavelength (cm-range) wire and split ring resonator (SRR), is analyzed theoretically and observed experimentally by illuminating the system with a 2GHz carrier wave. Read More

The analysis of high-precision $\pi^{\pm}p \to \pi^{\pm}p$ cross section data from the EPECUR Collaboration based on the multichannel $K$-matrix approach is presented.The sharp structures seen in these data are studied in terms of both opening thresholds and new resonance contributions. Some prominent features are found to be due to the opening $K\Sigma$ channel. Read More

2016Feb
Authors: The CALICE Collaboration, G. Eigen, T. Price, N. K. Watson, J. S. Marshall, M. A. Thomson, D. R. Ward, D. Benchekroun, A. Hoummada, Y. Khoulaki, J. Apostolakis, A. Dotti, G. Folger, V. Ivantchenko, A. Ribon, V. Uzhinskiy, J. -Y. Hostachy, L. Morin, E. Brianne, A. Ebrahimi, K. Gadow, P. Göttlicher, C. Günter, O. Hartbrich, B. Hermberg, A. Irles, F. Krivan, K. Krüger, J. Kvasnicka, S. Lu, B. Lutz, V. Morgunov, C. Neubüser, A. Provenza, M. Reinecke, F. Sefkow, S. Schuwalow, H. L. Tran, E. Garutti, S. Laurien, M. Matysek, M. Ramilli, S. Schroeder, K. Briggl, P. Eckert, Y. Munwes, H. -Ch. Schultz-Coulon, W. Shen, R. Stamen, B. Bilki, E. Norbeck, D. Northacker, Y. Onel, B. van Doren, G. W. Wilson, K. Kawagoe, H. Hirai, Y. Sudo, T. Suehara, H. Sumida, S. Takada, T. Tomita, T. Yoshioka, M. Wing, A. Bonnevaux, C. Combaret, L. Caponetto, G. Grenier, R. Han, J. C. Ianigro, R. Kieffer, I. Laktineh, N. Lumb, H. Mathez, L. Mirabito, A. Steen, J. Berenguer Antequera, E. Calvo Alamillo, M. -C. Fouz, J. Marin, J. Puerta-Pelayo, A. Verdugo, B. Bobchenko, O. Markin, E. Novikov, V. Rusinov, E. Tarkovsky, N. Kirikova, V. Kozlov, P. Smirnov, Y. Soloviev, D. Besson, P. Buzhan, M. Chadeeva, M. Danilov, A. Drutskoy, A. Ilyin, D. Mironov, R. Mizuk, E. Popova, M. Gabriel, P. Goecke, C. Kiesling, N. van der Kolk, F. Simon, M. Szalay, S. Bilokin, J. Bonis, P. Cornebise, R. Pöschl, F. Richard, A. Thiebault, D. Zerwas, M. Anduze, V. Balagura, E. Becheva, V. Boudry, J-C. Brient, J-B. Cizel, C. Clerc, R. Cornat, M. Frotin, F. Gastaldi, F. Magniette, P. Mora de Freitas, G. Musat, S. Pavy, M. Rubio-Roy, M. Ruan, H. Videau, S. Callier, F. Dulucq, G. Martin-Chassard, L. Raux, N. Seguin-Moreau, Ch. de la Taille, J. Cvach, P. Gallus, M. Havranek, M. Janata, D. Lednicky, M. Marcisovsky, I. Polak, J. Popule, L. Tomasek, M. Tomasek, P. Sicho, J. Smolik, V. Vrba, J. Zalesak, K. Kotera, H. Ono, T. Takeshita, S. Ieki, Y. Kamiya, W. Ootani, N. Shibata, D. Jeans, S. Komamiya, H. Nakanishi

The spatial development of hadronic showers in the CALICE scintillator-steel analogue hadron calorimeter is studied using test beam data collected at CERN and FNAL for single positive pions and protons with initial momenta in the range from 10 to 80 GeV/c. Both longitudinal and radial development of hadron showers are parametrised with two-component functions. The parametrisation is fit to test beam data and simulations using the QGSP_BERT and FTFP_BERT physics lists from Geant4 version 9. Read More

2016Feb
Authors: V. Buridon1, C. Combaret2, L. Caponetto3, R. Eté4, G. Garillot5, G. Grenier6, R. Han7, J. C. Ianigro8, R. Kieffer9, I. Laktineh10, N. Lumb, H. Mathez, L. Mirabito, A. Petrukhin, A. Steen, J. Berenguer Antequera, E. Calvo Alamillo, M. -C. Fouz, J. Marin, J. Puerta-Pelayo, A. Verdugo, E. Cortina Gil, S. Mannai, S. Cauwenbergh, M. Tytgat, A. Pingault, N. Zaganidis, M. Anduze, V. Balagura, K. Belkadhi, V. Boudry, J-C. Brient, R. Cornat, M. Frotin, F. Gastaldi, Y. Haddad, M. Ruan, K. Shpak, H. Videau, D. Yu, S. Callier, S. Conforti di Lorenzo, F. Dulucq, G. Martin-Chassard, Ch. de la Taille, L. Raux, N. Seguin-Moreau, D. Boumediene, C. Carloganu, V. Français, J. Bonis, B. Bouquet, P. Cornebise, Ph. Doublet, M. Faucci-Giannelli, T. Frisson, G. Guilhem, H. Li, F. Richard, R. Pöschl, J. Rouëné, F. Wicek, Z. Zhang, Z. Deng, Y. Li, Y. Wang, Q. Yue, Z. Yang, G. Cho, D-W. Kim, S. C. Lee, W. Park, S. Vallecorsa, E. Brianne, A. Ebrahimi, K. Gadow, P. Göttlicher, C. Günter, O. Hartbrich, B. Hermberg, A. Irles, F. Krivan, K. Krüger, J. Kvasnicka, S. Lu, B. Lutz, V. Morgunov, C. Neubüser A. Provenza, M. Reinecke, F. Sefkow, S. Schuwalow, H. L. Tran, E. Garutti, S. Laurien, M. Matysek, M. Ramilli, S. Schroeder, B. Bilki, E. Norbeck, D. Northacker, Y. Onel, N. Kirikova, V. Kozlov, P. Smirnov, Y. Soloviev, M. Chadeeva, M. Danilov, M. Gabriel, P. Goecke, C. Kiesling, N. van der Kolk, F. Simon, C. Soldner, M. Szalay, L. Weuste, D. Jeans, S. Komamiya, H. Nakanishi, D. Benchekroun, A. Hoummada, Y. Khoulaki
Affiliations: 1Corresponding author, 2Corresponding author, 3Corresponding author, 4Corresponding author, 5Corresponding author, 6Corresponding author, 7Corresponding author, 8Corresponding author, 9Corresponding author, 10Corresponding author

The CALICE Semi-Digital Hadronic Calorimeter (SDHCAL) prototype, built in 2011, was exposed to beams of hadrons, electrons and muons in two short periods in 2012 on two different beam lines of the CERN SPS. The prototype with its 48 active layers, made of Glass Resistive Plate Chambers and their embedded readout electronics, was run in triggerless and power-pulsing mode. The performance of the SDHCAL during the test beam was found to be very satisfactory with an efficiency exceeding 90% for almost all of the 48 active layers. Read More

The LUMINEU is designed to investigate the possibility to search for neutrinoless double beta decay in $^{100}$Mo by means of a large array of scintillating bolometers based on ZnMoO$_4$ crystals enriched in $^{100}$Mo. High energy resolution and relatively fast detectors, which are able to measure both the light and the heat generated upon the interaction of a particle in a crystal, are very promising for the recognition and rejection of background events. We present the LUMINEU concepts and the experimental results achieved aboveground and underground with large-mass natural and enriched crystals. Read More

The authors consider the Dirichlet problem for the nonstationary Stokes system in a threedimensional cone. They obtain existence and uniqueness results for solutions in weighted Sobolev spaces and prove a regularity assertion for the solutions. Read More

The capillary system is modelled by a fractal graph attached to a blood vessel. It is supplied with differential equations obtained from three-dimensional model by the dimension-reduction procedure. The geometry and physical parameters of this system are described by a finite number of scaling parameters which allows for system to have self-reproducing solutions, solutions which are determined by theirs values on a certain finite piece of the fractal graph and are continued on the remaining part by using these scaling factors. Read More

We consider the nonlinear problem of steady gravity-driven waves on the free surface of a two-dimensional flow of an incompressible fluid (say, water). The flow is assumed to be unidirectional of finite depth and the water motion is supposed to be rotational. Our aim is to verify the Benjamin--Lighthill conjecture for flows whose total head (Bernoulli's constant) is close to the critical one; the latter is determined by the vorticity distribution so that no horizontal shear flows exist for smaller values of the total head. Read More

We investigate global stability and dynamics of large ecological networks by classical methods of the dynamical system theory, including Hamiltonian methods, and averaging. Our analysis exploits the network topological structure, namely, existence of strongly connected nodes (hubs) in the networks. We reveal new relations between topology, interaction structure and network dynamics. Read More

In this paper, the dynamics of nonholonomic systems on Lie groups with a left-invariant kinetic energy and left-invariant constraints are considered. Equations of motion form a closed system of differential equations on the corresponding Lie algebra. In addition, the effect of change in the stability of steady motions of these systems with the direction of motion reversed (the reversal found in rattleback dynamics) is discussed. Read More

2015Sep
Authors: The CALICE collaboration, M. Chefdeville, Y. Karyotakis, J. Repond, J. Schlereth, L. Xia, G. Eigen, J. S. Marshall, M. A. Thomson, D. R. Ward, N. Alipour Tehrani, J. Apostolakis, D. Dannheim, K. Elsener, G. Folger, C. Grefe, V. Ivantchenko, M. Killenberg, W. Klempt, E. van der Kraaij, L. Linssen, A. -I. Lucaci-Timoce, A. Münnich, S. Poss, A. Ribon, P. Roloff, A. Sailer, D. Schlatter, E. Sicking, J. Strube, V. Uzhinskiy, S. Chang, A. Khan, D. H. Kim, D. J. Kong, Y. D. Oh, G. C. Blazey, A. Dyshkant, K. Francis, V. Zutshi, J. Giraud, D. Grondin, J. -Y. Hostachy, E. Brianne, U. Cornett, D. David, G. Falley, K. Gadow, P. Göttlicher, C. Günter, O. Hartbrich, B. Hermberg, A. Irles, S. Karstensen, F. Krivan, K. Krüger, J. Kvasnicka, S. Lu, B. Lutz, S. Morozov, V. Morgunov, C. Neubüser, A. Provenza, M. Reinecke, F. Sefkow, P. Smirnov, M. Terwort, H. L. Tran, A. Vargas-Trevino, E. Garutti, S. Laurien, M. Matysek, M. Ramilli, S. Schröder, K. Briggl, P. Eckert, T. Harion, Y. Munwes, H. -Ch. Schultz-Coulon, W. Shen, R. Stamen, B. Bilki, Y. Onel, K. Kawagoe, H. Hirai, Y. Sudo, T. Suehara, H. Sumida, S. Takada, T. Tomita, T. Yoshioka, M. Wing, E. Calvo Alamillo, M. -C. Fouz, J. Marin, J. Puerta-Pelayo, A. Verdugo, B. Bobchenko, M. Chadeeva, M. Danilov, O. Markin, R. Mizuk, E. Novikov, V. Rusinov, E. Tarkovsky, N. Kirikova, V. Kozlov, P. Smirnov, Y. Soloviev, D. Besson, P. Buzhan, E. Popova, M. Gabriel, C. Kiesling, N. van der Kolk, K. Seidel, F. Simon, C. Soldner, M. Szalay, M. Tesar, L. Weuste, M. S. Amjad, J. Bonis, P. Cornebise, F. Richard, R. Pöschl, J. Rouëné, A. Thiebault, M. Anduze, V. Balagura, V. Boudry, J-C. Brient, J-B. Cizel, R. Cornat, M. Frotin, F. Gastaldi, Y. Haddad, F. Magniette, J. Nanni, S. Pavy, M. Rubio-Roy, K. Shpak, T. H. Tran, H. Videau, D. Yu, S. Callier, S. Conforti di Lorenzo, F. Dulucq, J. Fleury, G. Martin-Chassard, Ch. de la Taille, L. Raux, N. Seguin-Moreau, J. Cvach, P. Gallus, M. Havranek, M. Janata, M. Kovalcuk, J. Kvasnicka, D. Lednicky, M. Marcisovsky, I. Polak, J. Popule, L. Tomasek, M. Tomasek, P. Ruzicka, P. Sicho, J. Smolik, V. Vrba, J. Zalesak, S. Ieki, Y. Kamiya, W. Ootani, N. Shibata, S. Chen, D. Jeans, S. Komamiya, C. Kozakai, H. Nakanishi, M. Götze, J. Sauer, S. Weber, C. Zeitnitz

We present a study of showers initiated by electrons, pions, kaons, and protons with momenta from 15 GeV to 150 GeV in the highly granular CALICE scintillator-tungsten analogue hadronic calorimeter. The data were recorded at the CERN Super Proton Synchrotron in 2011. The analysis includes measurements of the calorimeter response to each particle type as well as measurements of the energy resolution and studies of the longitudinal and radial shower development for selected particles. Read More

Hard exclusive electroproduction of $\omega$ mesons is studied with the HERMES spectrometer at the DESY laboratory by scattering 27.6 GeV positron and electron beams off a transversely polarized hydrogen target. The amplitudes of five azimuthal modulations of the single-spin asymmetry of the cross section with respect to the transverse proton polarization are measured. Read More

We consider an oblique derivative problem in a wedge for nondivergence parabolic equations with discontinuous in $t$ coefficients. We obtain weighted coercive estimates of solutions in anisotropic Sobolev spaces. Read More

2015May
Authors: HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, N. Bianchi, H. P. Blok, A. Borissov, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, G. Elbakian, F. Ellinghaus, E. Etzelmüller, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, G. Gapienko, V. Gapienko, J. Garay García, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Hartig, D. Hasch, Y. Holler, I. Hristova, Y. Imazu, A. Ivanilov, H. E. Jackson, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, X. -G. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, Y. Miyachi, A. Movsisyan, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, V. Shutov, M. Stahl, M. Stancari, M. Statera, J. J. M. Steijger, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, B. Zihlmann, P. Zupranski

Bose-Einstein correlations of like-sign charged hadrons produced in deep-inelastic electron and positron scattering are studied in the HERMES experiment using nuclear targets of $^1$H, $^2$H, $^3$He, $^4$He, N, Ne, Kr, and Xe. A Gaussian approach is used to parametrize a two-particle correlation function determined from events with at least two charged hadrons of the same sign charge. This correlation function is compared to two different empirical distributions that do not include the Bose-Einstein correlations. Read More

The technology of scintillating bolometers based on zinc molybdate (ZnMoO$_4$) crystals is under development within the LUMINEU project to search for 0$\nu$2$\beta$ decay of $^{100}$Mo with the goal to set the basis for large scale experiments capable to explore the inverted hierarchy region of the neutrino mass pattern. Advanced ZnMoO$_4$ crystal scintillators with mass of $\sim$~0.3 kg were developed and Zn$^{100}$MoO$_4$ crystal from enriched $^{100}$Mo was produced for the first time by using the low-thermal-gradient Czochralski technique. Read More

The earlier search at HERMES for narrow baryon states excited in quasi-real photoproduction, decaying through the channel $pK_S^0\rightarrow p\pi^+\pi^-$, has been extended with improved decay-particle reconstruction, more advanced particle identification, and increased event samples. The structure observed earlier at an invariant mass of 1528 MeV shifts to 1522 MeV and the statistical significance drops to about 2$\sigma$ for data taken with a deuterium target. The number of events above background is $68_{-31}^{+98}\text{(stat)}\pm13\text{(sys)}$. Read More

2014Oct
Affiliations: 1EPECUR Collaboration and GW INS Data Analysis Center, 2EPECUR Collaboration and GW INS Data Analysis Center, 3EPECUR Collaboration and GW INS Data Analysis Center, 4EPECUR Collaboration and GW INS Data Analysis Center, 5EPECUR Collaboration and GW INS Data Analysis Center, 6EPECUR Collaboration and GW INS Data Analysis Center, 7EPECUR Collaboration and GW INS Data Analysis Center, 8EPECUR Collaboration and GW INS Data Analysis Center, 9EPECUR Collaboration and GW INS Data Analysis Center, 10EPECUR Collaboration and GW INS Data Analysis Center, 11EPECUR Collaboration and GW INS Data Analysis Center, 12EPECUR Collaboration and GW INS Data Analysis Center, 13EPECUR Collaboration and GW INS Data Analysis Center, 14EPECUR Collaboration and GW INS Data Analysis Center, 15EPECUR Collaboration and GW INS Data Analysis Center, 16EPECUR Collaboration and GW INS Data Analysis Center, 17EPECUR Collaboration and GW INS Data Analysis Center, 18EPECUR Collaboration and GW INS Data Analysis Center, 19EPECUR Collaboration and GW INS Data Analysis Center, 20EPECUR Collaboration and GW INS Data Analysis Center, 21EPECUR Collaboration and GW INS Data Analysis Center, 22EPECUR Collaboration and GW INS Data Analysis Center, 23EPECUR Collaboration and GW INS Data Analysis Center, 24EPECUR Collaboration and GW INS Data Analysis Center, 25EPECUR Collaboration and GW INS Data Analysis Center

Cross sections for pi+-p elastic scattering have been measured to high precision, for beam momenta between 800 and 1240 MeV/c, by the EPECUR Collaboration, using the ITEP proton synchrotron. The data precision allows comparisons of the existing partial-wave analyses (PWA) on a level not possible previously. These comparisons imply that updated PWA are required. Read More

For the problem describing steady, gravity waves with vorticity on a two-dimensional, unidirectional flow of finite depth the following results are obtained. (i) Bounds for the free-surface profile and for Bernoulli's constant. (ii) If only one parallel shear flow exists for a given value of Bernoulli's constant, then there are no wave solutions provided the vorticity distribution is subject to a certain condition. Read More

2014Sep
Authors: PANDA Collaboration, B. P. Singh, W. Erni, I. Keshelashvili, B. Krusche, M. Steinacher %, B. Liu, H. Liu, Z. Liu, X. Shen, C. Wang, J. Zhao %, M. Albrecht, M. Fink, F. H. Heinsius, T. Held, T. Holtmann, H. Koch, B. Kopf, M. Kümmel, G. Kuhl, M. Kuhlmann, M. Leyhe, M. Mikirtychyants, P. Musiol, A. Mustafa, M. Pelizäus, J. Pychy, M. Richter, C. Schnier, T. Schröder, C. Sowa, M. Steinke, T. Triffterer, U. Wiedner, R. Beck, C. Hammann, D. Kaiser, B. Ketzer, M. Kube, P. Mahlberg, M. Rossbach, C. Schmidt, R. Schmitz, U. Thoma, D. Walther, C. Wendel, A. Wilson, A. Bianconi, M. Bragadireanu, M. Caprini, D. Pantea, D. Pietreanu, M. E. Vasile, B. Patel, D. Kaplan, P. Brandys, T. Czyzewski, W. Czyzycki, M. Domagala, M. Hawryluk, G. Filo, M. Krawczyk, D. Kwiatkowski, E. Lisowski, F. Lisowski, T. Fiutowski, M. Idzik, B. Mindur, D. Przyborowski, K. Swientek, B. Czech, S. Kliczewski, K. Korcyl, A. Kozela, P. Kulessa, P. Lebiedowicz, K. Malgorzata, K. Pysz, W. Schäfer, R. Siudak, A. Szczurek, J. Biernat, S. Jowzaee, B. Kamys, S. Kistryn, G. Korcyl, W. Krzemien, A. Magiera, P. Moskal, M. Palka, A. Psyzniak, Z. Rudy, P. Salabura, J. Smyrski, P. Strzempek, A. Wrońska, I. Augustin, I. Lehmann, D. Nicmorus, G. Schepers, L. Schmitt, M. Al-Turany, U. Cahit, L. Capozza, A. Dbeyssi, H. Deppe, R. Dzhygadlo, A. Ehret, H. Flemming, A. Gerhardt, K. Götzen, R. Karabowicz, R. Kliemt, J. Kunkel, U. Kurilla, D. Lehmann, J. Lühning, F. Maas, C. Morales Morales, M. C. Mora Espí, F. Nerling, H. Orth, K. Peters, D. Rodríguez Pineiro, N. Saito, T. Saito, A. Sánchez Lorente, C. J. Schmidt, C. Schwarz, J. Schwiening, M. Traxler, R. Valente, B. Voss, P. Wieczorek, A. Wilms, M. Zühlsdorf, V. M. Abazov, G. Alexeev, A. Arefiev, V. I. Astakhov, M. Yu. Barabanov, B. V. Batyunya, Yu. I. Davydov, V. Kh. Dodokhov, A. A. Efremov, A. G. Fedunov, A. A. Festchenko, A. S. Galoyan, S. Grigoryan, A. Karmokov, E. K. Koshurnikov, V. I. Lobanov, Yu. Yu. Lobanov, A. F. Makarov, L. V. Malinina, V. L. Malyshev, G. A. Mustafaev, A. Olshevskiy, M. A. Pasyuk, E. A. Perevalova, A. A. Piskun, T. A. Pocheptsov, G. Pontecorvo, V. K. Rodionov, Yu. N. Rogov, R. A. Salmin, A. G. Samartsev, M. G. Sapozhnikov, G. S. Shabratova, N. B. Skachkov, A. N. Skachkova, E. A. Strokovsky, M. K. Suleimanov, R. Sh. Teshev, V. V. Tokmenin, V. V. Uzhinsky, A. S. Vodopyanov, S. A. Zaporozhets, N. I. Zhuravlev, A. G. Zorin, D. Branford, D. Glazier, D. Watts, P. Woods, A. Britting, W. Eyrich, A. Lehmann, F. Uhlig, S. Dobbs, K. Seth, A. Tomaradze, T. Xiao, D. Bettoni, V. Carassiti, A. Cotta Ramusino, P. Dalpiaz, A. Drago, E. Fioravanti, I. Garzia, M. Savriè, G. Stancari, V. Akishina, I. Kisel, I. Kulakov, M. Zyzak, R. Arora, T. Bel, A. Gromliuk, G. Kalicy, M. Krebs, M. Patsyuk, M. Zuehlsdorf, N. Bianchi, P. Gianotti, C. Guaraldo, V. Lucherini, E. Pace, A. Bersani, G. Bracco, M. Macri, R. F. Parodi, S. Bianco, D. Bremer, K. T. Brinkmann, S. Diehl, V. Dormenev, P. Drexler, M. Düren, T. Eissner, E. Etzelmüller, K. Föhl, M. Galuska, T. Gessler, E. Gutz, A. Hayrapetyan, J. Hu, B. Kröck, W. Kühn, T. Kuske, S. Lange, Y. Liang, O. Merle, V. Metag, D. Mülhheim, D. Münchow, M. Nanova, R. Novotny, A. Pitka, T. Quagli, J. Rieke, C. Rosenbaum, R. Schnell, B. Spruck, H. Stenzel, U. Thöring, M. Ullrich, T. Wasem, M. Werner, H. G. Zaunick, D. Ireland, G. Rosner, B. Seitz, P. N. Deepak, A. V. Kulkarni, A. Apostolou, M. Babai, M. Kavatsyuk, P. Lemmens, M. Lindemulder, H. Löhner, J. Messchendorp, P. Schakel, H. Smit, J. C. van der Weele, M. Tiemens, R. Veenstra, S. Vejdani, K. Kalita, D. P. Mohanta, A. Kumar, A. Roy, R. Sahoo, H. Sohlbach, M. Büscher, L. Cao, A. Cebulla, D. Deermann, R. Dosdall, S. Esch, I. Georgadze, A. Gillitzer, A. Goerres, F. Goldenbaum, D. Grunwald, A. Herten, Q. Hu, G. Kemmerling, H. Kleines, V. Kozlov, A. Lehrach, S. Leiber, R. Maier, R. Nellen, H. Ohm, S. Orfanitski, D. Prasuhn, E. Prencipe, J. Ritman, S. Schadmand, J. Schumann, T. Sefzick, V. Serdyuk, G. Sterzenbach, T. Stockmanns, P. Wintz, P. Wüstner, H. Xu, S. Li, Z. Li, Z. Sun, H. Xu, V. Rigato, S. Fissum, K. Hansen, L. Isaksson, M. Lundin, B. Schröder, P. Achenbach, S. Bleser, M. Cardinali, O. Corell, M. Deiseroth, A. Denig, M. Distler, F. Feldbauer, M. Fritsch, P. Jasinski, M. Hoek, D. Kangh, A. Karavdina, W. Lauth, H. Leithoff, H. Merkel, M. Michel, C. Motzko, U. Müller, O. Noll, S. Plueger, J. Pochodzalla, S. Sanchez, S. Schlimme, C. Sfienti, M. Steinen, M. Thiel, T. Weber, M. Zambrana, V. I. Dormenev, A. A. Fedorov, M. V. Korzihik, O. V. Missevitch, P. Balanutsa, V. Balanutsa, V. Chernetsky, A. Demekhin, A. Dolgolenko, P. Fedorets, A. Gerasimov, V. Goryachev, V. Varentsov, A. Boukharov, O. Malyshev, I. Marishev, A. Semenov, I. Konorov, S. Paul, S. Grieser, A. K. Hergemöller, A. Khoukaz, E. Köhler, A. Täschner, J. Wessels, S. Dash, M. Jadhav, S. Kumar, P. Sarin, R. Varma, V. B. Chandratre, V. Datar, D. Dutta, V. Jha, H. Kumawat, A. K. Mohanty, B. Roy, Y. Yan, K. Chinorat, K. Khanchai, L. Ayut, S. Pornrad, A. Y. Barnyakov, A. E. Blinov, V. E. Blinov, V. S. Bobrovnikov, S. A. Kononov, E. A. Kravchenko, I. A. Kuyanov, A. P. Onuchin, A. A. Sokolov, Y. A. Tikhonov, E. Atomssa, T. Hennino, M. Imre, R. Kunne, C. Le Galliard, B. Ma, D. Marchand, S. Ong, B. Ramstein, P. Rosier, E. Tomasi-Gustafsson, J. Van de Wiele, G. Boca, S. Costanza, P. Genova, L. Lavezzi, P. Montagna, A. Rotondi, V. Abramov, N. Belikov, S. Bukreeva, A. Davidenko, A. Derevschikov, Y. Goncharenko, V. Grishin, V. Kachanov, V. Kormilitsin, Y. Melnik, A. Levin, N. Minaev, V. Mochalov, D. Morozov, L. Nogach, S. Poslavskiy, A. Ryazantsev, S. Ryzhikov, P. Semenov, I. Shein, A. Uzunian, A. Vasiliev, A. Yakutin, B. Yabsley, T. Bäck, B. Cederwall, K. Makónyi, P. E. Tegnér, K. M. von Würtemberg, S. Belostotski, G. Gavrilov, A. Izotov, A. Kashchuk, O. Levitskaya, S. Manaenkov, O. Miklukho, Y. Naryshkin, K. Suvorov, D. Veretennikov, A. Zhadanov, A. K. Rai, S. S. Godre, R. Duchat, A. Amoroso, M. P. Bussa, L. Busso, F. De Mori, M. Destefanis, L. Fava, L. Ferrero, M. Greco, M. Maggiora, G. Maniscalco, S. Marcello, S. Sosio, S. Spataro, L. Zotti, D. Calvo, S. Coli, P. De Remigis, A. Filippi, G. Giraudo, S. Lusso, G. Mazza, M. Mingnore, A. Rivetti, R. Wheadon, F. Balestra, F. Iazzi, R. Introzzi, A. Lavagno, H. Younis, R. Birsa, F. Bradamante, A. Bressan, A. Martin, H. Clement, B. Gålnander, L. Caldeira Balkeståhl, H. Calén, K. Fransson, T. Johansson, A. Kupsc, P. Marciniewski, J. Pettersson, K. Schönning, M. Wolke, J. Zlomanczuk, J. Díaz, A. Ortiz, P. C. Vinodkumar, A. Parmar, A. Chlopik, D. Melnychuk, B. Slowinski, A. Trzcinski, M. Wojciechowski, S. Wronka, B. Zwieglinski, P. Bühler, J. Marton, K. Suzuki, E. Widmann, J. Zmeskal, B. Fröhlich, D. Khaneft, D. Lin, I. Zimmermann, K. Semenov-Tian-Shansky

Baryon-to-meson Transition Distribution Amplitudes (TDAs) encoding valuable new information on hadron structure appear as building blocks in the collinear factorized description for several types of hard exclusive reactions. In this paper, we address the possibility of accessing nucleon-to-pion ($\pi N$) TDAs from $\bar{p}p \to e^+e^- \pi^0$ reaction with the future \={P}ANDA detector at the FAIR facility. At high center of mass energy and high invariant mass squared of the lepton pair $q^2$, the amplitude of the signal channel $\bar{p}p \to e^+e^- \pi^0$ admits a QCD factorized description in terms of $\pi N$ TDAs and nucleon Distribution Amplitudes (DAs) in the forward and backward kinematic regimes. Read More

2014Jul

Exclusive electroproduction of $\omega$ mesons on unpolarized hydrogen and deuterium targets is studied in the kinematic region of Q$^2$>1.0 GeV$^2$, 3.0 GeV < W < 6. Read More

2014Jun
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, N. Bianchi, H. P. Blok, A. Borissov, J. Bowles, I. Brodski, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, D. Gabbert, G. Gapienko, V. Gapienko, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, Y. Imazu, A. Ivanilov, H. E. Jackson, H. S. Jo, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, N. Kobayashi, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, X. -G. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, K. P. Schüler, B. Seitz, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, A. Vandenbroucke, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

The transverse polarization of $\Lambda$ hyperons was measured in inclusive quasireal photoproduction for various target nuclei ranging from hydrogen to xenon. The data were obtained by the HERMES experiment at HERA using the 27.6 GeV lepton beam and nuclear gas targets internal to the lepton storage ring. Read More

2014Apr
Authors: C. Adloff1, J. -J. Blaising2, M. Chefdeville3, C. Drancourt4, R. Gaglione5, N. Geffroy6, Y. Karyotakis7, I. Koletsou8, J. Prast9, G. Vouters J. Repond10, J. Schlereth11, L. Xia E. Baldolemar12, J. Li13, S. T. Park14, M. Sosebee15, A. P. White16, J. Yu17, G. Eigen18, M. A. Thomson19, D. R. Ward20, D. Benchekroun21, A. Hoummada22, Y. Khoulaki J. Apostolakis23, S. Arfaoui24, M. Benoit25, D. Dannheim26, K. Elsener27, G. Folger28, C. Grefe29, V. Ivantchenko30, M. Killenberg31, W. Klempt32, E. van der Kraaij33, L. Linssen34, A. -I. Lucaci-Timoce35, A. Münnich36, S. Poss37, A. Ribon38, P. Roloff39, A. Sailer40, D. Schlatter41, E. Sicking42, J. Strube43, V. Uzhinskiy44, C. Carloganu45, P. Gay46, S. Manen47, L. Royer48, U. Cornett49, D. David50, A. Ebrahimi51, G. Falley52, N. Feege53, K. Gadow54, P. Göttlicher55, C. Günter56, O. Hartbrich57, B. Hermberg58, S. Karstensen59, F. Krivan60, K. Krüger61, S. Lu62, B. Lutz63, S. Morozov64, V. Morgunov65, C. Neubüser66, M. Reinecke67, F. Sefkow68, P. Smirnov69, M. Terwort70, A. Fagot71, M. Tytgat72, N. Zaganidis73, J. -Y. Hostachy74, L. Morin75, E. Garutti76, S. Laurien77, I. Marchesini78, M. Matysek79, M. Ramilli80, K. Briggl81, P. Eckert82, T. Harion83, H. -Ch. Schultz-Coulon84, W. Shen85, R. Stamen86, S. Chang87, A. Khan88, D. H. Kim89, D. J. Kong90, Y. D. Oh91, B. Bilki92, E. Norbeck93, D. Northacker94, Y. Onel95, G. W. Wilson96, K. Kawagoe97, Y. Miyazaki98, Y. Sudo99, H. Ueno100, T. Yoshioka101, P. D. Dauncey102, E. Cortina Gil103, S. Mannai104, G. Baulieu105, P. Calabria106, L. Caponetto107, C. Combaret108, R. Della Negra109, R. Ete110, G. Grenier111, R. Han112, J-C. Ianigro113, R. Kieffer114, I. Laktineh115, N. Lumb116, H. Mathez117, L. Mirabito118, A. Petrukhin119, A. Steen120, W. Tromeur121, M. Vander Donckt122, Y. Zoccarato J. Berenguer Antequera123, E. Calvo Alamillo124, M. -C. Fouz125, J. Puerta-Pelayo126, F. Corriveau127, B. Bobchenko128, M. Chadeeva129, M. Danilov130, A. Epifantsev131, O. Markin132, R. Mizuk133, E. Novikov134, V. Rusinov135, E. Tarkovsky136, V. Kozlov137, Y. Soloviev138, D. Besson139, P. Buzhan140, A. Ilyin141, V. Kantserov142, V. Kaplin143, E. Popova144, V. Tikhomirov145, M. Gabriel146, C. Kiesling147, K. Seidel148, F. Simon149, C. Soldner150, M. Szalay151, M. Tesar152, L. Weuste153, M. S. Amjad154, J. Bonis155, S. Conforti di Lorenzo156, P. Cornebise157, J. Fleury158, T. Frisson159, N. van der Kolk160, F. Richard161, R. Pöschl162, J. Rouene163, M. Anduze164, V. Balagura165, E. Becheva166, V. Boudry167, J-C. Brient168, R. Cornat169, M. Frotin170, F. Gastaldi171, E. Guliyev172, Y. Haddad173, F. Magniette174, M. Ruan175, T. H. Tran176, H. Videau177, S. Callier178, F. Dulucq179, G. Martin-Chassard180, Ch. de la Taille181, L. Raux182, N. Seguin-Moreau183, J. Zacek184, J. Cvach185, P. Gallus186, M. Havranek187, M. Janata188, J. Kvasnicka189, D. Lednicky190, M. Marcisovsky191, I. Polak192, J. Popule193, L. Tomasek194, M. Tomasek195, P. Ruzicka196, P. Sicho197, J. Smolik198, V. Vrba199, J. Zalesak200, . Belhorma201, H. Ghazlane202, K. Kotera203, H. Ono204, T. Takeshita205, S. Uozumi206, J. S. Chai207, H. S. Song208, S. H. Lee209, M. Götze210, J. Sauer211, S. Weber212, C. Zeitnitz213
Affiliations: 1The CALICE Collaboration, 2The CALICE Collaboration, 3The CALICE Collaboration, 4The CALICE Collaboration, 5The CALICE Collaboration, 6The CALICE Collaboration, 7The CALICE Collaboration, 8The CALICE Collaboration, 9The CALICE Collaboration, 10The CALICE Collaboration, 11The CALICE Collaboration, 12The CALICE Collaboration, 13The CALICE Collaboration, 14The CALICE Collaboration, 15The CALICE Collaboration, 16The CALICE Collaboration, 17The CALICE Collaboration, 18The CALICE Collaboration, 19The CALICE Collaboration, 20The CALICE Collaboration, 21The CALICE Collaboration, 22The CALICE Collaboration, 23The CALICE Collaboration, 24The CALICE Collaboration, 25The CALICE Collaboration, 26The CALICE Collaboration, 27The CALICE Collaboration, 28The CALICE Collaboration, 29The CALICE Collaboration, 30The CALICE Collaboration, 31The CALICE Collaboration, 32The CALICE Collaboration, 33The CALICE Collaboration, 34The CALICE Collaboration, 35The CALICE Collaboration, 36The CALICE Collaboration, 37The CALICE Collaboration, 38The CALICE Collaboration, 39The CALICE Collaboration, 40The CALICE Collaboration, 41The CALICE Collaboration, 42The CALICE Collaboration, 43The CALICE Collaboration, 44The CALICE Collaboration, 45The CALICE Collaboration, 46The CALICE Collaboration, 47The CALICE Collaboration, 48The CALICE Collaboration, 49The CALICE Collaboration, 50The CALICE Collaboration, 51The CALICE Collaboration, 52The CALICE Collaboration, 53The CALICE Collaboration, 54The CALICE Collaboration, 55The CALICE Collaboration, 56The CALICE Collaboration, 57The CALICE Collaboration, 58The CALICE Collaboration, 59The CALICE Collaboration, 60The CALICE Collaboration, 61The CALICE Collaboration, 62The CALICE Collaboration, 63The CALICE Collaboration, 64The CALICE Collaboration, 65The CALICE Collaboration, 66The CALICE Collaboration, 67The CALICE Collaboration, 68The CALICE Collaboration, 69The CALICE Collaboration, 70The CALICE Collaboration, 71The CALICE Collaboration, 72The CALICE Collaboration, 73The CALICE Collaboration, 74The CALICE Collaboration, 75The CALICE Collaboration, 76The CALICE Collaboration, 77The CALICE Collaboration, 78The CALICE Collaboration, 79The CALICE Collaboration, 80The CALICE Collaboration, 81The CALICE Collaboration, 82The CALICE Collaboration, 83The CALICE Collaboration, 84The CALICE Collaboration, 85The CALICE Collaboration, 86The CALICE Collaboration, 87The CALICE Collaboration, 88The CALICE Collaboration, 89The CALICE Collaboration, 90The CALICE Collaboration, 91The CALICE Collaboration, 92The CALICE Collaboration, 93The CALICE Collaboration, 94The CALICE Collaboration, 95The CALICE Collaboration, 96The CALICE Collaboration, 97The CALICE Collaboration, 98The CALICE Collaboration, 99The CALICE Collaboration, 100The CALICE Collaboration, 101The CALICE Collaboration, 102The CALICE Collaboration, 103The CALICE Collaboration, 104The CALICE Collaboration, 105The CALICE Collaboration, 106The CALICE Collaboration, 107The CALICE 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142The CALICE Collaboration, 143The CALICE Collaboration, 144The CALICE Collaboration, 145The CALICE Collaboration, 146The CALICE Collaboration, 147The CALICE Collaboration, 148The CALICE Collaboration, 149The CALICE Collaboration, 150The CALICE Collaboration, 151The CALICE Collaboration, 152The CALICE Collaboration, 153The CALICE Collaboration, 154The CALICE Collaboration, 155The CALICE Collaboration, 156The CALICE Collaboration, 157The CALICE Collaboration, 158The CALICE Collaboration, 159The CALICE Collaboration, 160The CALICE Collaboration, 161The CALICE Collaboration, 162The CALICE Collaboration, 163The CALICE Collaboration, 164The CALICE Collaboration, 165The CALICE Collaboration, 166The CALICE Collaboration, 167The CALICE Collaboration, 168The CALICE Collaboration, 169The CALICE Collaboration, 170The CALICE Collaboration, 171The CALICE Collaboration, 172The CALICE Collaboration, 173The CALICE Collaboration, 174The CALICE Collaboration, 175The CALICE Collaboration, 176The CALICE Collaboration, 177The CALICE Collaboration, 178The CALICE Collaboration, 179The CALICE Collaboration, 180The CALICE Collaboration, 181The CALICE Collaboration, 182The CALICE Collaboration, 183The CALICE Collaboration, 184The CALICE Collaboration, 185The CALICE Collaboration, 186The CALICE Collaboration, 187The CALICE Collaboration, 188The CALICE Collaboration, 189The CALICE Collaboration, 190The CALICE Collaboration, 191The CALICE Collaboration, 192The CALICE Collaboration, 193The CALICE Collaboration, 194The CALICE Collaboration, 195The CALICE Collaboration, 196The CALICE Collaboration, 197The CALICE Collaboration, 198The CALICE Collaboration, 199The CALICE Collaboration, 200The CALICE Collaboration, 201The CALICE Collaboration, 202The CALICE Collaboration, 203The CALICE Collaboration, 204The CALICE Collaboration, 205The CALICE Collaboration, 206The CALICE Collaboration, 207The CALICE Collaboration, 208The CALICE Collaboration, 209The CALICE Collaboration, 210The CALICE Collaboration, 211The CALICE Collaboration, 212The CALICE Collaboration, 213The CALICE Collaboration

The intrinsic time structure of hadronic showers influences the timing capability and the required integration time of hadronic calorimeters in particle physics experiments, and depends on the active medium and on the absorber of the calorimeter. With the CALICE T3B experiment, a setup of 15 small plastic scintillator tiles read out with Silicon Photomultipliers, the time structure of showers is measured on a statistical basis with high spatial and temporal resolution in sampling calorimeters with tungsten and steel absorbers. The results are compared to GEANT4 (version 9. Read More

2013Dec

An earlier extraction from the HERMES experiment of the polarization-averaged parton distribution of strange quarks in the nucleon has been reevaluated using final data on the multiplicities of charged kaons in semi-inclusive deep-inelastic scattering obtained with a kinematically more comprehensive method of correcting for experimental effects. General features of the distribution are confirmed, but the rise at low x is less pronounced than previously reported. Read More

2013Nov
Affiliations: 1Institute for Theoretical and Experimental Physics, 2Petersburg Nuclear Physics Institute, 3Institute for Theoretical and Experimental Physics, 4Institute for Theoretical and Experimental Physics, 5Institute for Theoretical and Experimental Physics, 6Petersburg Nuclear Physics Institute, 7Petersburg Nuclear Physics Institute, 8Petersburg Nuclear Physics Institute, 9Institute for Theoretical and Experimental Physics, 10Institute for Theoretical and Experimental Physics, 11Institute for Theoretical and Experimental Physics, 12Petersburg Nuclear Physics Institute, 13Petersburg Nuclear Physics Institute, 14Petersburg Nuclear Physics Institute, 15Petersburg Nuclear Physics Institute, 16Institute for Theoretical and Experimental Physics, 17Institute for Theoretical and Experimental Physics, 18Institute for Theoretical and Experimental Physics, 19Petersburg Nuclear Physics Institute, 20Institute for Theoretical and Experimental Physics, 21Abilene Christian University, 22Institute for Theoretical and Experimental Physics, 23Petersburg Nuclear Physics Institute, 24Institute for Theoretical and Experimental Physics, 25Petersburg Nuclear Physics Institute, 26Petersburg Nuclear Physics Institute

EPECUR experimental setup is aimed at the search of narrow resonant states by precision measurement of differential and total reaction cross sections of pion-nucleon interaction with 1 MeV pion energy steps. In five years passed from the idea of the experiment till the start of the data taking in April of 2009, a new apparatus was build from scratch at the universal beam line 322 of ITEP proton synchrotron U-10. The setup is essentially a non-magnetic spectrometer with a liquid hydrogen target based on the large aperture drift chambers with hexagonal structure. Read More

2013Nov
Authors: C. Adloff, J. -J. Blaising, M. Chefdeville, C. Drancourt, R. Gaglione, N. Geffroy, Y. Karyotakis, I. Koletsou, J. Prast, G. Vouters, J. Repond, J. Schlereth, J. Smith, L. Xia, E. Baldolemar, J. Li, S. T. Park, M. Sosebee, A. P. White, J. Yu, G. Eigen, M. A. Thomson, D. R. Ward, D. Benchekroun, A. Hoummada, Y. Khoulaki, J. Apostolakis, D. Dannheim, A. Dotti, K. Elsener, G. Folger, C. Grefe, V. Ivantchenko, M. Killenberg, W. Klempt, E. van der Kraaij, C. B. Lam, L. Linssen, A. -I. Lucaci-Timoce, A. Muennich, S. Poss, A. Ribon, A. Sailer, D. Schlatter, J. Strube, V. Uzhinskiy, C. Carloganu, P. Gay, S. Manen, L. Royer, M. Tytgat, N. Zaganidis, G. C. Blazey, A. Dyshkant, J. G. R. Lima, V. Zutshi, J. -Y. Hostachy, L. Morin, U. Cornett, D. David, A. Ebrahimi, G. Falley, N. Feege, K. Gadow, P. Goettlicher, C. Guenter, O. Hartbrich, B. Hermberg, S. Karstensen, F. Krivan, K. Krueger, S. Lu, B. Lutz, S. Morozov, V. Morgunov, C. Neubueser, M. Reinecke, F. Sefkow, P. Smirnov, M. Terwort, E. Garutti, S. Laurien, I. Marchesini, M. Matysek, M. Ramilli, K. Briggl, P. Eckert, T. Harion, H. -Ch. Schultz-Coulon, W. Shen, R. Stamen, B. Bilki, E. Norbeck, D. Northacker, Y. Onel, G. W. Wilson, K. Kawagoe, Y. Sudo, T. Yoshioka, P. D. Dauncey, M. Wing, F. Salvatore, E. Cortina Gil, S. Mannai, G. Baulieu, P. Calabria, L. Caponetto, C. Combaret, R. Della Negra, G. Grenier, R. Han, J-C. Ianigro, R. Kieffer, I. Laktineh, N. Lumb, H. Mathez, L. Mirabito, A. Petrukhin, A. Steen, W. Tromeur, M. Vander Donckt, Y. Zoccarato, E. Calvo Alamillo, M. -C. Fouz, J. Puerta-Pelayo, F. Corriveau, B. Bobchenko, M. Chadeeva, M. Danilov, A. Epifantsev, O. Markin, R. Mizuk, E. Novikov, V. Popov, V. Rusinov, E. Tarkovsky, N. Kirikova, V. Kozlov, P. Smirnov, Y. Soloviev, D. Besson, P. Buzhan, A. Ilyin, V. Kantserov, V. Kaplin, A. Karakash, E. Popova, V. Tikhomirov, C. Kiesling, K. Seidel, F. Simon, C. Soldner, M. Szalay, M. Tesar, L. Weuste, M. S. Amjad, J. Bonis, S. Callier, S. Conforti di Lorenzo, P. Cornebise, Ph. Doublet, F. Dulucq, J. Fleury, T. Frisson, N. van der Kolk, H. Li, G. Martin-Chassard, F. Richard, Ch. de la Taille, R. Poeschl, L. Raux, J. Rouene, N. Seguin-Moreau, M. Anduze, V. Balagura, V. Boudry, J-C. Brient, R. Cornat, M. Frotin, F. Gastaldi, E. Guliyev, Y. Haddad, F. Magniette, G. Musat, M. Ruan, T. H. Tran, H. Videau, B. Bulanek, J. Zacek, J. Cvach, P. Gallus, M. Havranek, M. Janata, J. Kvasnicka, D. Lednicky, M. Marcisovsky, I. Polak, J. Popule, L. Tomasek, M. Tomasek, P. Ruzicka, P. Sicho, J. Smolik, V. Vrba, J. Zalesak, B. Belhorma, H. Ghazlane, K. Kotera, T. Takeshita, S. Uozumi, S. Chang, A. Khan, D. H. Kim, D. J. Kong, Y. D. Oh, M. Goetze, J. Sauer, S. Weber, C. Zeitnitz

Lepton colliders are considered as options to complement and to extend the physics programme at the Large Hadron Collider. The Compact Linear Collider (CLIC) is an $e^+e^-$ collider under development aiming at centre-of-mass energies of up to 3 TeV. For experiments at CLIC, a hadron sampling calorimeter with tungsten absorber is proposed. Read More

This paper considers how the eigenvalues of the Neumann problem for an elliptic operator depend on the domain. The proximity of two domains is measured in terms of the norm of the difference between the two resolvents corresponding to the reference domain and the perturbed domain, and the size of eigenfunctions outside the intersection of the two domains. This construction enables the possibility of comparing both nonsmooth domains and domains with different topology. Read More

2013Oct
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, Z. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, S. Belostotski, N. Bianchi, H. P. Blok, A. Borissov, J. Bowles, V. Bryzgalov, J. Burns, M. Capiluppi, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, L. De Nardo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, R. Fabbri, A. Fantoni, L. Felawka, S. Frullani, D. Gabbert, G. Gapienko, V. Gapienko, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Golembiovskaya, C. Hadjidakis, M. Hartig, D. Hasch, A. Hillenbrand, M. Hoek, Y. Holler, I. Hristova, A. Ivanilov, H. E. Jackson, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, A. López Ruiz, W. Lorenzon, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, Y. Mao, B. Marianski, A. Martinez de la Ossa, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, E. Nappi, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, M. Raithel, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, F. Sanftl, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, V. Shutov, M. Stancari, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, D. Veretennikov, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, W. Yu, V. Zagrebelnyy, D. Zeiler, B. Zihlmann, P. Zupranski

Single-spin asymmetries were investigated in inclusive electroproduction of charged pions and kaons from transversely polarized protons at the HERMES experiment. The asymmetries were studied as a function of the azimuthal angle $\psi$ about the beam direction between the target-spin direction and the hadron production plane, the transverse hadron momentum relative to the direction of the incident beam, and the Feynman variable $x_F$. The $\sin(\psi)$ amplitudes are positive for positive pions and kaons, slightly negative for negative pions and consistent with zero for negative kaons, with particular transverse-momentum but weak $x_F$ dependences. Read More

2013Oct
Authors: The HERMES Collaboration, A. Airapetian, N. Akopov, E. C. Aschenauer, W. Augustyniak, R. Avakian, A. Avetissian, E. Avetisyan, H. P. Blok, H. Böttcher, A. Borissov, J. Bowles, I. Brodski, V. Bryzgalov, J. Burns, G. P. Capitani, E. Cisbani, G. Ciullo, M. Contalbrigo, P. F. Dalpiaz, W. Deconinck, R. De Leo, E. De Sanctis, M. Diefenthaler, P. Di Nezza, M. Düren, M. Ehrenfried, G. Elbakian, F. Ellinghaus, E. Etzelmüller, R. Fabbri, S. Frullani, G. Gapienko, V. Gapienko, J. Garay García, F. Garibaldi, G. Gavrilov, V. Gharibyan, F. Giordano, S. Gliske, M. Hartig, D. Hasch, Y. Holler, I. Hristova, A. Ivanilov, H. E. Jackson, S. Joosten, R. Kaiser, G. Karyan, T. Keri, E. Kinney, A. Kisselev, V. Korotkov, V. Kozlov, P. Kravchenko, V. G. Krivokhijine, L. Lagamba, L. Lapikás, I. Lehmann, P. Lenisa, W. Lorenzon, X. -G. Lu, B. -Q. Ma, D. Mahon, N. C. R. Makins, S. I. Manaenkov, Y. Mao, B. Marianski, H. Marukyan, C. A. Miller, Y. Miyachi, A. Movsisyan, V. Muccifora, M. Murray, A. Mussgiller, Y. Naryshkin, A. Nass, M. Negodaev, W. -D. Nowak, L. L. Pappalardo, R. Perez-Benito, A. Petrosyan, P. E. Reimer, A. R. Reolon, C. Riedl, K. Rith, G. Rosner, A. Rostomyan, J. Rubin, D. Ryckbosch, Y. Salomatin, A. Schäfer, G. Schnell, B. Seitz, T. -A. Shibata, M. Stahl, M. Statera, E. Steffens, J. J. M. Steijger, J. Stewart, F. Stinzing, S. Taroian, A. Terkulov, R. Truty, A. Trzcinski, M. Tytgat, Y. Van Haarlem, C. Van Hulse, V. Vikhrov, I. Vilardi, S. Wang, S. Yaschenko, Z. Ye, S. Yen, V. Zagrebelnyy, B. Zihlmann, P. Zupranski

The beam-helicity asymmetry in associated electroproduction of real photons, $ep\to e\gamma \pi N$, in the $\Delta$(1232)-resonance region is measured using the longitudinally polarized HERA positron beam and an unpolarized hydrogen target. Azimuthal Fourier amplitudes of this asymmetry are extracted separately for two channels, $ep\to e\gamma \pi^0 p$ and $ep\to e\gamma \pi^+ n$, from a data set collected with a recoil detector. All asymmetry amplitudes are found to be consistent with zero. Read More

This paper presents the set of measurements of ultra-high energy air shower radio emission at frequency 32 MHz in period of 2008-2012. The showers are selected by geomagnetic and azimuth angles and then by the energy in three intervals: 3*10^16 3*10^17 eV, 3*10^17 6*10^17 eV and 6*10^17 5*10^18 eV. In each energy interval average lateral distribution function using mathematically averaged data from antennas with different directions are plotted. Read More

2013Jul
Affiliations: 1INFN, Lab. Naz. Frascati, via E. Fermi, Italy, 2INFN, Lab. Naz. Frascati, via E. Fermi, Italy, 3INFN, Lab. Naz. Frascati, via E. Fermi, Italy, 4Univ. and INFN Pavia, via Bassi, Italy, 5Univ. and INFN Pavia, via Bassi, Italy, 6Univ. and INFN Pavia, via Bassi, Italy, 7Univ. and INFN Pavia, via Bassi, Italy, 8Univ. and INFN Pavia, via Bassi, Italy, 9Univ. and INFN Pavia, via Bassi, Italy, 10IFIN H.H., Str. Reactorului, Bucharest - Magurele, Romania, 11IFIN H.H., Str. Reactorului, Bucharest - Magurele, Romania, 12IFIN H.H., Str. Reactorului, Bucharest - Magurele, Romania, 13Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 14Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 15Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 16Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 17Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 18Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 19Inst. of Physics Jagiellonian Univ., ul. Reymonta, Poland, 20Detector Dev. Lab., AGH Univ. of Science and Technology, Poland, 21Detector Dev. Lab., AGH Univ. of Science and Technology, Poland, 22Inst. of Nuclear Physics, PAN, ul. Radzikowskiego, Poland, 23Inst. of Nuclear Physics, PAN, ul. Radzikowskiego, Poland, 24Inst. of Nuclear Physics, PAN, ul. Radzikowskiego, Poland, 25Dep. of Physics & Astronomy Northwestern Univ., USA, 26Dep. of Physics & Astronomy Northwestern Univ., USA, 27Univ. and INFN Ferrara, via Saragat, Italy, 28Univ. and INFN Ferrara, via Saragat, Italy, 29Univ. and INFN Ferrara, via Saragat, Italy, 30Univ. and INFN Ferrara, via Saragat, Italy, 31IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 32IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 33IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 34IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 35IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 36IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 37IKP Forschungszentrum Juelich, Geb. Wilhelm-Johnen-Strasse, Germany, 38Univ. and INFN Torino, via P. Giuria, Italy

The PANDA experiment will be built at the FAIR facility at Darmstadt (Germany) to perform accurate tests of the strong interaction through bar pp and bar pA annihilation's studies. To track charged particles, two systems consisting of a set of planar, closed-packed, self-supporting straw tube layers are under construction. The PANDA straw tubes will have also unique characteristics in term of material budget and performance. Read More

2013Jun
Authors: C. Adloff, J. Blaha, J. -J. Blaising, C. Drancourt, A. Espargilière, R. Gaglione, N. Geffroy, Y. Karyotakis, J. Prast, G. Vouters, K. Francis, J. Repond, J. Schlereth, J. Smith, L. Xia, E. Baldolemar, J. Li, S. T. Park, M. Sosebee, A. P. White, J. Yu, T. Buanes, G. Eigen, Y. Mikami, N. K. Watson, G. Mavromanolakis, M. A. Thomson, D. R. Ward, W. Yan, D. Benchekroun, A. Hoummada, Y. Khoulaki, J. Apostolakis, A. Dotti, G. Folger, V. Ivantchenko, V. Uzhinskiy, M. Benyamna, C. Cârloganu, F. Fehr, P. Gay, S. Manen, L. Royer, G. C. Blazey, A. Dyshkant, J. G. R. Lima, V. Zutshi, J. -Y. Hostachy, L. Morin, U. Cornett, D. David, G. Falley, K. Gadow, P. Göttlicher, C. Günter, B. Hermberg, S. Karstensen, F. Krivan, A. -I. Lucaci-Timoce, S. Lu, B. Lutz, S. Morozov, V. Morgunov, M. Reinecke, F. Sefkow, P. Smirnov, M. Terwort, A. Vargas-Trevino, N. Feege, E. Garutti, I. Marchesinik, M. Ramilli, P. Eckert, T. Harion, A. Kaplan, H. -Ch. Schultz-Coulon, W. Shen, R. Stamen, B. Bilki, E. Norbeck, Y. Onel, G. W. Wilson, K. Kawagoe, P. D. Dauncey, A. -M. Magnan, V. Bartsch, M. Wing, F. Salvatore, E. Calvo Alamillo, M. -C. Fouz, J. Puerta-Pelayo, B. Bobchenko, M. Chadeeva, M. Danilov, A. Epifantsev, O. Markin, R. Mizuk, E. Novikov, V. Popov, V. Rusinov, E. Tarkovsky, N. Kirikova, V. Kozlov, P. Smirnov, Y. Soloviev, P. Buzhan, A. Ilyin, V. Kantserov, V. Kaplin, A. Karakash, E. Popova, V. Tikhomirov, C. Kiesling, K. Seidel, F. Simon, C. Soldner, M. Szalay, M. Tesar, L. Weuste, M. S. Amjad, J. Bonis, S. Callier, S. Conforti di Lorenzo, P. Cornebise, Ph. Doublet, F. Dulucq, J. Fleury, T. Frisson, N. van der Kolk, H. Li, G. Martin-Chassard, F. Richard, Ch. de la Taille, R. Pöschl, L. Raux, J. Rouëné, N. Seguin-Moreau, M. Anduze, V. Boudry, J-C. Brient, D. Jeans, P. Mora de Freitas, G. Musat, M. Reinhard, M. Ruan, H. Videau, B. Bulanek, J. Zacek, J. Cvach, P. Gallus, M. Havranek, M. Janata, J. Kvasnicka, D. Lednicky, M. Marcisovsky, I. Polak, J. Popule, L. Tomasek, M. Tomasek, P. Ruzicka, P. Sicho, J. Smolik, V. Vrba, J. Zalesak, B. Belhorma, H. Ghazlane, T. Takeshita, S. Uozumi, M. Götze, O. Hartbrich, J. Sauer, S. Weber, C. Zeitnitz

Calorimeters with a high granularity are a fundamental requirement of the Particle Flow paradigm. This paper focuses on the prototype of a hadron calorimeter with analog readout, consisting of thirty-eight scintillator layers alternating with steel absorber planes. The scintillator plates are finely segmented into tiles individually read out via Silicon Photomultipliers. Read More