Y. Kim - Rare Isotope Science Project, Institute for Basic Science

Y. Kim
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Y. Kim
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Rare Isotope Science Project, Institute for Basic Science
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High Energy Physics - Experiment (10)
 
Physics - Mesoscopic Systems and Quantum Hall Effect (7)
 
Physics - Strongly Correlated Electrons (6)
 
Physics - Instrumentation and Detectors (4)
 
Quantum Physics (4)
 
Instrumentation and Methods for Astrophysics (2)
 
Nuclear Experiment (2)
 
Earth and Planetary Astrophysics (2)
 
General Relativity and Quantum Cosmology (2)
 
Mathematics - Algebraic Geometry (2)
 
Computer Science - Computer Vision and Pattern Recognition (2)
 
Mathematics - Optimization and Control (2)
 
Solar and Stellar Astrophysics (2)
 
Physics - Materials Science (2)
 
Physics - Statistical Mechanics (2)
 
Nuclear Theory (2)
 
Computer Science - Graphics (2)
 
Mathematics - Differential Geometry (1)
 
Physics - Superconductivity (1)
 
High Energy Astrophysical Phenomena (1)
 
Physics - Atomic Physics (1)
 
Computer Science - Information Theory (1)
 
Computer Science - Networking and Internet Architecture (1)
 
Mathematics - Symplectic Geometry (1)
 
Quantitative Biology - Molecular Networks (1)
 
Physics - Medical Physics (1)
 
Mathematics - Information Theory (1)
 
Statistics - Machine Learning (1)
 
Computer Science - Learning (1)
 
Mathematics - Analysis of PDEs (1)

Publications Authored By Y. Kim

Close to equilibrium, the exchange of particles and heat between macroscopic systems at different temperatures and different chemical potentials is known to be governed by a matrix of transport coefficients which is positive and symmetric. We investigate the amounts of heat and particles that are exchanged between two small quantum systems within a given time, and find them characterized by a transport matrix which neither needs to be symmetric nor positive. At larger times even spontaneous transport can be observed in the total absence of temperature and chemical potential differences provided that the two systems are different in size. Read More

Molecule-electrode contact atomic structures are a critical factor that characterizes molecular devices, but their precise understanding and control still remain elusive. Based on combined first-principles calculations and single-molecule break junction experiments, we herein establish that the conductance of alkanedithiolate junctions can both increase and decrease with mechanical stretching and the specific trend is determined by the S-Au linkage coordination number (CN) or the molecule-electrode contact atomic structure. Specifically, we find that the mechanical pulling results in the conductance increase for the junctions based on S-Au CN two and CN three contacts, while the conductance is minimally affected by stretching for junctions with the CN one contact and decreases upon the formation of Au monoatomic chains. Read More

2017May
Authors: N. Dash, S. Bahinipati, V. Bhardwaj, K. Trabelsi, I. Adachi, H. Aihara, S. Al Said, D. M. Asner, V. Aulchenko, T. Aushev, R. Ayad, V. Babu, I. Badhrees, A. M. Bakich, V. Bansal, E. Barberio, B. Bhuyan, J. Biswal, A. Bobrov, A. Bondar, G. Bonvicini, A. Bozek, M. Bracko, F. Breibeck, T. E. Browder, D. Cervenkov, M. -C. Chang, V. Chekelian, A. Chen, B. G. Cheon, K. Chilikin, K. Cho, Y. Choi, D. Cinabro, S. Di Carlo, Z. Dolezal, Z. Drasal, D. Dutta, S. Eidelman, D. Epifanov, H. Farhat, J. E. Fast, T. Ferber, B. G. Fulsom, V. Gaur, N. Gabyshev, A. Garmash, R. Gillard, P. Goldenzweig, J. Haba, T. Hara, K. Hayasaka, H. Hayashii, M. T. Hedges, W. -S. Hou, T. Iijima, K. Inami, A. Ishikawa, R. Itoh, Y. Iwasaki, W. W. Jacobs, I. Jaegle, H. B. Jeon, Y. Jin, D. Joffe, K. K. Joo, T. Julius, J. Kahn, A. B. Kaliyar, G. Karyan, P. Katrenko, T. Kawasaki, C. Kiesling, D. Y. Kim, H. J. Kim, J. B. Kim, K. T. Kim, M. J. Kim, S. H. Kim, Y. J. Kim, K. Kinoshita, P. Kodys, S. Korpar, D. Kotchetkov, P. Krizan, P. Krokovny, T. Kuhr, R. Kulasiri, R. Kumar, T. Kumita, A. Kuzmin, Y. -J. Kwon, J. S. Lange, 11 I. S. Lee, C. H. Li, L. Li, Y. Li, L. Li Gioi, J. Libby, D. Liventsev, M. Lubej, T. Luo, M. Masuda, D. Matvienko, M. Merola, K. Miyabayashi, H. Miyata, R. Mizuk, G. B. Mohanty, S. Mohanty, H. K. Moon, T. Mori, R. Mussa, E. Nakano, M. Nakao, T. Nanut, K. J. Nath, Z. Natkaniec, M. Nayak, M. Niiyama, N. K. Nisar, S. Nishida, S. Ogawa, S. Okuno, H. Ono, P. Pakhlov, G. Pakhlova, B. Pal, S. Pardi, C. -S. Park, H. Park, S. Paul, T. K. Pedlar, L. Pesantez, R. Pestotnik, L. E. Piilonen, K. Prasanth, M. Ritter, A. Rostomyan, H. Sahoo, Y. Sakai, S. Sandilya, L. Santelj, T. Sanuki, Y. Sato, V. Savinov, O. Schneider, G. Schnell, C. Schwanda, A. J. Schwartz, Y. Seino, K. Senyo, M. E. Sevior, V. Shebalin, C. P. Shen, T. -A. Shibata, J. -G. Shiu, B. Shwartz, F. Simon, A. Sokolov, E. Solovieva, M. Staric, J. F. Strube, J. Stypula, K. Sumisawa, T. Sumiyoshi, M. Takizawa, U. Tamponi, K. Tanida, F. Tenchini, M. Uchida, T. Uglov, Y. Unno, S. Uno, P. Urquijo, Y. Usov, C. Van Hulse, G. Varner, V. Vorobyev, A. Vossen, E. Waheed, C. H. Wang, M. -Z. Wang, P. Wang, M. Watanabe, Y. Watanabe, E. Widmann, K. M. Williams, E. Won, Y. Yamashita, H. Ye, J. Yelton, Y. Yook, C. Z. Yuan, Y. Yusa, Z. P. Zhang, V. Zhilich, V. Zhukova, V. Zhulanov, A. Zupanc

We report a study of the decay $D^0 \to K^0_S K^0_S$ using 921~fb$^{-1}$ of data collected at or near the $\Upsilon(4S)$ and $\Upsilon(5S)$ resonances with the Belle detector at the KEKB asymmetric-energy $e^+e^-$ collider. The measured time-integrated CP asymmetry is $ A_{CP}(D^0 \to K^0_S K^0_S) = (-0.02 \pm 1. Read More

One-dimensional (1D) electronic transport and induced superconductivity in semiconductor nano-structures are crucial ingredients to realize topological superconductivity. Our approach for topological superconductivity employs a two-dimensional electron gas (2DEG) formed by an InAs quantum well, cleanly interfaced with a superconductor (epitaxial Al). This epi-Al/InAs quantum well heterostructure is advantageous for fabricating large-scale nano-structures consisting of multiple Majorana zero modes. Read More

Transition metal oxides have been extensively studied and utilized as efficient catalysts. However, the strongly correlated behavior which often results in intriguing emergent phenomena in these materials has been mostly overlooked in understanding the electrochemical activities. Here, we demonstrate a close correlation between the phase transitions and oxygen evolution reaction (OER) in a strongly correlated SrRuO3. Read More

2017May
Authors: T. Julius1, M. E. Sevior2, G. B. Mohanty3, I. Adachi4, H. Aihara5, S. Al Said6, D. M. Asner7, V. Aulchenko8, T. Aushev9, R. Ayad10, V. Babu11, I. Badhrees12, A. M. Bakich13, V. Bansal14, E. Barberio15, M. Barrett16, M. Berger17, V. Bhardwaj18, B. Bhuyan19, J. Biswal20, T. Bloomfield21, A. Bobrov22, A. Bondar23, G. Bonvicini24, A. Bozek25, M. Bračko26, T. E. Browder27, D. Červenkov28, M. -C. Chang29, Y. Chao30, V. Chekelian31, A. Chen32, B. G. Cheon33, K. Chilikin34, K. Cho35, Y. Choi36, D. Cinabro37, N. Dash38, S. Di Carlo39, Z. Doležal40, D. Dossett41, Z. Drásal42, D. Dutta43, S. Eidelman44, H. Farhat45, J. E. Fast46, T. Ferber47, B. G. Fulsom48, V. Gaur49, N. Gabyshev50, A. Garmash51, R. Gillard52, P. Goldenzweig53, J. Haba54, T. Hara55, K. Hayasaka56, H. Hayashii57, W. -S. Hou58, C. -L. Hsu59, T. Iijima60, K. Inami61, A. Ishikawa62, R. Itoh63, Y. Iwasaki64, W. W. Jacobs65, I. Jaegle66, Y. Jin67, D. Joffe68, K. K. Joo69, J. Kahn70, G. Karyan71, P. Katrenko72, T. Kawasaki73, C. Kiesling74, D. Y. Kim75, H. J. Kim76, J. B. Kim77, K. T. Kim78, M. J. Kim79, S. H. Kim80, Y. J. Kim81, K. Kinoshita82, P. Kodyš83, S. Korpar84, D. Kotchetkov85, P. Križan86, P. Krokovny87, T. Kuhr88, R. Kulasiri89, A. Kuzmin90, Y. -J. Kwon91, J. S. Lange92, I. S. Lee93, C. H. Li94, L. Li95, Y. Li96, L. Li Gioi97, J. Libby98, D. Liventsev99, T. Luo100, J. MacNaughton101, M. Masuda102, T. Matsuda103, M. Merola104, K. Miyabayashi105, H. Miyata106, R. Mizuk107, H. K. Moon108, T. Mori109, R. Mussa110, E. Nakano111, M. Nakao112, T. Nanut113, K. J. Nath114, Z. Natkaniec115, M. Nayak116, N. K. Nisar117, S. Nishida118, S. Ogawa119, H. Ono120, P. Pakhlov121, G. Pakhlova122, B. Pal123, S. Pardi124, C. -S. Park125, H. Park126, L. Pesántez127, R. Pestotnik128, L. E. Piilonen129, C. Pulvermacher130, M. Ritter131, H. Sahoo132, Y. Sakai133, M. Salehi134, S. Sandilya135, L. Santelj136, T. Sanuki137, Y. Sato138, V. Savinov139, O. Schneider140, G. Schnell141, C. Schwanda142, A. J. Schwartz143, Y. Seino144, K. Senyo145, V. Shebalin146, T. -A. Shibata147, J. -G. Shiu148, B. Shwartz149, A. Sokolov150, E. Solovieva151, M. Starič152, T. Sumiyoshi153, U. Tamponi154, K. Tanida155, F. Tenchini156, K. Trabelsi157, M. Uchida158, S. Uehara159, T. Uglov160, Y. Unno161, S. Uno162, P. Urquijo163, Y. Usov164, C. Van Hulse165, G. Varner166, K. E. Varvell167, A. Vossen168, E. Waheed169, C. H. Wang170, M. -Z. Wang171, P. Wang172, M. Watanabe173, Y. Watanabe174, E. Widmann175, K. M. Williams176, E. Won177, Y. Yamashita178, H. Ye179, C. Z. Yuan180, Y. Yusa181, Z. P. Zhang182, V. Zhilich183, V. Zhulanov184, A. Zupanc185
Affiliations: 1The Belle Collaboration, 2The Belle Collaboration, 3The Belle Collaboration, 4The Belle Collaboration, 5The Belle Collaboration, 6The Belle Collaboration, 7The Belle Collaboration, 8The Belle Collaboration, 9The Belle Collaboration, 10The Belle Collaboration, 11The Belle Collaboration, 12The Belle Collaboration, 13The Belle Collaboration, 14The Belle Collaboration, 15The Belle Collaboration, 16The Belle Collaboration, 17The Belle Collaboration, 18The Belle Collaboration, 19The Belle Collaboration, 20The Belle Collaboration, 21The Belle Collaboration, 22The Belle Collaboration, 23The Belle Collaboration, 24The Belle Collaboration, 25The Belle Collaboration, 26The Belle Collaboration, 27The Belle Collaboration, 28The Belle Collaboration, 29The Belle Collaboration, 30The Belle Collaboration, 31The Belle Collaboration, 32The Belle Collaboration, 33The Belle Collaboration, 34The Belle Collaboration, 35The Belle Collaboration, 36The Belle Collaboration, 37The Belle 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We measure the branching fraction and $CP$-violating asymmetry in the decay $B^{0}\to \pi^{0}\pi^{0}$, using a data sample of $752\times 10^{6}$ $B\bar{B}$ pairs collected at the $\Upsilon(4S)$ resonance with the Belle detector at the KEKB $e^{+}e^{-}$ collider. The obtained branching fraction and direct $CP$ asymmetry are $ \mathcal{B}(B\to \pi^{0}\pi^{0}) = [1.31 \pm 0. Read More

Recent developments in the relationship between bulk topology and surface crystalline symmetries have led to the discovery of materials whose gapless surface states are protected by crystal symmetries. In fact, there exists only a very limited set of possible surface crystal symmetries, captured by the 17 "wallpaper groups." We show that all possible crystalline insulators, symmorphic and nonsymmorphic, can be exhaustively characterized by considering these groups. Read More

The analysis of the mutational landscape of cancer, including mutual exclusivity and co-occurrence of mutations, has been instrumental in studying the disease. We hypothesized that exploring the interplay between co-occurrence, mutual exclusivity, and functional interactions between genes will further improve our understanding of the disease and help to uncover new relations between cancer driving genes and pathways. To this end, we designed a general framework, BeWith, for identifying modules with different combinations of mutation and interaction patterns. Read More

The ground-state properties of nuclei with 8 $\le$ Z $\le$ 120 from the proton drip line to the neutron drip line have been investigated using the relativistic continuum Hartree-Bogoliubov (RCHB) theory with the relativistic density functional PC-PK1. With the effects of the continuum included, there are totally 9035 nuclei predicted to be bound, which largely extends the existing nuclear landscapes predicted with other methods. The calculated binding energies, separation energies, neutron and proton Fermi surfaces, root-mean-square (rms) radii of neutron, proton, matter, and charge distributions, ground-state spins and parities are tabulated. Read More

Combining low-dimensional materials and a wide bandgap semiconductor opens a new playing field for quantum optics using sub-bandgap excitation. 2D van der Waals stacked hexagonal boron nitride (h-BN) has gained considerable attention as it hosts single quantum emitters (QEs) for wavelengths above the UV spectral range. Previously, QEs density in h-BN has been linked to the perimeters of the system. Read More

Understanding the detailed queueing behavior of a networking session is critical in enabling low-latency services over the Internet. Especially when the packet arrival and service rates at the queue of a link vary over time and moreover when the session is short-lived, analyzing the corresponding queue behavior as a function of time, which involves a transient analysis, becomes extremely challenging. In this paper, we propose and develop a new analytical framework that anatomizes the transient queue behavior under time-varying arrival and service rates even under unstable conditions. Read More

The Gelfand-Cetlin system $\Phi_\lambda : \mathcal{O}_\lambda \rightarrow \mathbb{R}^n$ is a completely integrable system on a partial flag manifold $(\mathcal{O}_\lambda,\omega_\lambda)$ whose image is a convex polytope $\triangle_\lambda \subset \mathbb{R}^n$. In the first part of this paper, we are concerned with the topology of Gelfand-Cetlin fibers. We first show that every Gelfand-Cetlin fiber is an isotropic submanifold of $(\mathcal{O}_\lambda, \omega_\lambda)$ and it is an iterated bundle where the fiber at each stage is either a point or a product of odd dimensional spheres. Read More

To watch 360{\deg} videos on normal 2D displays, we need to project the selected part of the 360{\deg} image onto the 2D display plane. In this paper, we propose a fully-automated framework for generating content-aware 2D normal-view perspective videos from 360{\deg} videos. Especially, we focus on the projection step preserving important image contents and reducing image distortion. Read More

The surface structure of phosphorene crystals materials is determined using surface sensitive dynamical micro-spot low energy electron diffraction ({\mu}LEED) analysis using a high spatial resolution low energy electron microscopy (LEEM) system. Samples of (\textit{i}) crystalline cleaved black phosphorus (BP) at 300 K and (\textit{ii}) exfoliated few-layer phosphorene (FLP) of about 10 nm thicknes, which were annealed at 573 K in vacuum were studied. In both samples, a significant surface buckling of 0. Read More

In dark photon search experiments with electron beam-dumps, it is difficult to access the smaller dark photon life-time region of phase space due to enormous backgrounds from low-energy particles emerging from the target. In order to reduce the background, a thick beam-dump target is usually necessary. We propose to detect the Cherenkov radiation in gas due to ultra-relativistic electron and positron from dark photon decay. Read More

Purpose: To provide a fast computational method, based on the proximal graph solver (POGS) - a convex optimization solver using the alternating direction method of multipliers (ADMM), for calculating an optimal treatment plan in rotating shield brachytherapy (RSBT). RSBT treatment planning has more degrees of freedom than conventional high-dose-rate brachytherapy (HDR-BT) due to the addition of emission direction, and this necessitates a fast optimization technique to enable clinical usage. // Methods: The multi-helix RSBT (H-RSBT) delivery technique was considered with five representative cervical cancer patients. Read More

New wave of the technology revolution, often referred to as the fourth industrial revolution, is changing the way we live, work, and communicate with each other. These days, we are witnessing the emergence of unprecedented services and applications requiring lower latency, better reliability massive connection density, and improved energy efficiency. In accordance with this trend and change, international telecommunication union (ITU) defined three representative service categories, viz. Read More

Tensor factorization models offer an effective approach to convert massive electronic health records into meaningful clinical concepts (phenotypes) for data analysis. These models need a large amount of diverse samples to avoid population bias. An open challenge is how to derive phenotypes jointly across multiple hospitals, in which direct patient-level data sharing is not possible (e. Read More

We calculate the mass modification of $\Delta(1232)$ as well as $N(939)$ in symmetric and asymmetric nuclear matter based on the parity partner structure, where they have a certain amount of the chiral invariant mass. We study phase structure of our model in cold dense matter and find that the onset density of $\Delta$ matter is around two or three times the normal nuclear matter density. We also calculate the effective masses, pressure and symmetry energy to study how the transition to $\Delta$ matter affects such physical quantities. Read More

2017Apr
Authors: The LIGO Scientific Collaboration, the Virgo Collaboration, B. P. Abbott, R. Abbott, T. D. Abbott, F. Acernese, K. Ackley, C. Adams, T. Adams, P. Addesso, R. X. Adhikari, V. B. Adya, C. Affeldt, M. Afrough, B. Agarwal, K. Agatsuma, N. Aggarwal, O. D. Aguiar, L. Aiello, A. Ain, B. Allen, G. Allen, A. Allocca, H. Almoubayyed, P. A. Altin, A. Amato, A. Ananyeva, S. B. Anderson, W. G. Anderson, S. Antier, S. Appert, K. Arai, M. C. Araya, J. S. Areeda, N. Arnaud, K. G. Arun, S. Ascenzi, G. Ashton, M. Ast, S. M. Aston, P. Astone, P. Aufmuth, C. Aulbert, K. AultONeal, A. Avila-Alvarez, S. Babak, P. Bacon, M. K. M. Bader, S. Bae, P. T. Baker, F. Baldaccini, G. Ballardin, S. W. Ballmer, S. Banagiri, J. C. Barayoga, S. E. Barclay, B. C. Barish, D. Barker, F. Barone, B. Barr, L. Barsotti, M. Barsuglia, D. Barta, J. Bartlett, I. Bartos, R. Bassiri, A. Basti, J. C. Batch, C. Baune, M. Bawaj, M. Bazzan, B. B'ecsy, C. Beer, M. Bejger, I. Belahcene, A. S. Bell, B. K. Berger, G. Bergmann, C. P. L. Berry, D. Bersanetti, A. Bertolini, Z. B. Etienne, J. Betzwieser, S. Bhagwat, R. Bhandare, I. A. Bilenko, G. Billingsley, C. R. Billman, J. Birch, R. Birney, O. Birnholtz, S. Biscans, A. Bisht, M. Bitossi, C. Biwer, M. A. Bizouard, J. K. Blackburn, J. Blackman, C. D. Blair, D. G. Blair, R. M. Blair, S. Bloemen, O. Bock, N. Bode, M. Boer, G. Bogaert, A. Bohe, F. Bondu, R. Bonnand, B. A. Boom, R. Bork, V. Boschi, S. Bose, Y. Bouffanais, A. Bozzi, C. Bradaschia, P. R. Brady, V. B. Braginsky, M. Branchesi, J. E. Brau, T. Briant, A. Brillet, M. Brinkmann, V. Brisson, P. Brockill, J. E. Broida, A. F. Brooks, D. A. Brown, D. D. Brown, N. M. Brown, S. Brunett, C. C. Buchanan, A. Buikema, T. Bulik, H. J. Bulten, A. Buonanno, D. Buskulic, C. Buy, R. L. Byer, M. Cabero, L. Cadonati, G. Cagnoli, C. Cahillane, J. Calder'on Bustillo, T. A. Callister, E. Calloni, J. B. Camp, M. Canepa, P. Canizares, K. C. Cannon, H. Cao, J. Cao, C. D. Capano, E. Capocasa, F. Carbognani, S. Caride, M. F. Carney, J. Casanueva Diaz, C. Casentini, S. Caudill, M. Cavagli`a, F. Cavalier, R. Cavalieri, G. Cella, C. B. Cepeda, L. Cerboni Baiardi, G. Cerretani, E. Cesarini, S. J. Chamberlin, M. Chan, S. Chao, P. Charlton, E. Chassande-Mottin, D. Chatterjee, B. D. Cheeseboro, H. Y. Chen, Y. Chen, H. -P. Cheng, A. Chincarini, A. Chiummo, T. Chmiel, H. S. Cho, M. Cho, J. H. Chow, N. Christensen, Q. Chu, A. J. K. Chua, S. Chua, A. K. W. Chung, S. Chung, G. Ciani, R. Ciolfi, C. E. Cirelli, A. Cirone, F. Clara, J. A. Clark, F. Cleva, C. Cocchieri, E. Coccia, P. -F. Cohadon, A. Colla, C. G. Collette, L. R. Cominsky, M. Constancio Jr., L. Conti, S. J. Cooper, P. Corban, T. R. Corbitt, K. R. Corley, N. Cornish, A. Corsi, S. Cortese, C. A. Costa, M. W. Coughlin, S. B. Coughlin, J. -P. Coulon, S. T. Countryman, P. Couvares, P. B. Covas, E. E. Cowan, D. M. Coward, M. J. Cowart, D. C. Coyne, R. Coyne, J. D. E. Creighton, T. D. Creighton, J. Cripe, S. G. Crowder, T. J. Cullen, A. Cumming, L. Cunningham, E. Cuoco, T. Dal Canton, S. L. Danilishin, S. D'Antonio, K. Danzmann, A. Dasgupta, C. F. Da Silva Costa, V. Dattilo, I. Dave, M. Davier, G. S. Davies, D. Davis, E. J. Daw, B. Day, S. De, D. DeBra, E. Deelman, J. Degallaix, M. De Laurentis, S. Del'eglise, W. Del Pozzo, T. Denker, T. Dent, V. Dergachev, R. De Rosa, R. T. DeRosa, R. DeSalvo, J. Devenson, R. C. Devine, S. Dhurandhar, M. C. D'iaz, L. Di Fiore, M. Di Giovanni, T. Di Girolamo, A. Di Lieto, S. Di Pace, I. Di Palma, F. Di Renzo, Z. Doctor, V. Dolique, F. Donovan, K. L. Dooley, S. Doravari, I. Dorrington, R. Douglas, M. Dovale 'Alvarez, T. P. Downes, M. Drago, R. W. P. Drever, J. C. Driggers, Z. Du, M. Ducrot, J. Duncan, S. E. Dwyer, T. B. Edo, M. C. Edwards, A. Effler, H. -B. Eggenstein, P. Ehrens, J. Eichholz, S. S. Eikenberry, R. A. Eisenstein, R. C. Essick, T. Etzel, M. Evans, T. M. Evans, M. Factourovich, V. Fafone, H. Fair, S. Fairhurst, X. Fan, S. Farinon, B. Farr, W. M. Farr, E. J. Fauchon-Jones, M. Favata, M. Fays, H. Fehrmann, J. Feicht, M. M. Fejer, A. Fernandez-Galiana, I. Ferrante, E. C. Ferreira, F. Ferrini, F. Fidecaro, I. Fiori, D. Fiorucci, R. P. Fisher, R. Flaminio, M. Fletcher, H. Fong, P. W. F. Forsyth, S. S. Forsyth, J. -D. Fournier, S. Frasca, F. Frasconi, Z. Frei, A. Freise, R. Frey, V. Frey, E. M. Fries, P. Fritschel, V. V. Frolov, P. Fulda, M. Fyffe, H. Gabbard, M. Gabel, B. U. Gadre, S. M. Gaebel, J. R. Gair, L. Gammaitoni, M. R. Ganija, S. G. Gaonkar, F. Garufi, S. Gaudio, G. Gaur, V. Gayathri, N. Gehrels, G. Gemme, E. Genin, A. Gennai, D. George, J. George, L. Gergely, V. Germain, S. Ghonge, Abhirup Ghosh, Archisman Ghosh, S. Ghosh, J. A. Giaime, K. D. Giardina, A. Giazotto, K. Gill, L. Glover, E. Goetz, R. Goetz, S. Gomes, G. Gonz'alez, J. M. Gonzalez Castro, A. Gopakumar, M. L. Gorodetsky, S. E. Gossan, M. Gosselin, R. Gouaty, A. Grado, C. Graef, M. Granata, A. Grant, S. Gras, C. Gray, G. Greco, A. C. Green, P. Groot, H. Grote, S. Grunewald, P. Gruning, G. M. Guidi, X. Guo, A. 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Katzman, S. Kaufer, K. Kawabe, F. K'ef'elian, D. Keitel, A. J. Kemball, R. Kennedy, C. Kent, J. S. Key, F. Y. Khalili, I. Khan, S. Khan, Z. Khan, E. A. Khazanov, N. Kijbunchoo, Chunglee Kim, J. C. Kim, W. Kim, W. S. Kim, Y. -M. Kim, S. J. Kimbrell, E. J. King, P. J. King, R. Kirchhoff, J. S. Kissel, L. Kleybolte, S. Klimenko, P. Koch, S. M. Koehlenbeck, S. Koley, V. Kondrashov, A. Kontos, M. Korobko, W. Z. Korth, I. Kowalska, D. B. Kozak, C. Kr"amer, V. Kringel, B. Krishnan, A. Kr'olak, G. Kuehn, P. Kumar, R. Kumar, S. Kumar, L. Kuo, A. Kutynia, S. Kwang, B. D. Lackey, K. H. Lai, M. Landry, R. N. Lang, J. Lange, B. Lantz, R. K. Lanza, A. Lartaux-Vollard, P. D. Lasky, M. Laxen, A. Lazzarini, C. Lazzaro, P. Leaci, S. Leavey, C. H. Lee, H. K. Lee, H. M. Lee, H. W. Lee, K. Lee, J. Lehmann, A. Lenon, M. Leonardi, N. Leroy, N. Letendre, Y. Levin, T. G. F. Li, A. Libson, T. B. Littenberg, J. Liu, N. A. Lockerbie, L. T. London, J. E. Lord, M. Lorenzini, V. Loriette, M. Lormand, G. Losurdo, J. 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Wofford, K. W. K. Wong, J. Worden, J. L. Wright, D. S. Wu, G. Wu, W. Yam, H. Yamamoto, C. C. Yancey, M. J. Yap, Hang Yu, Haocun Yu, M. Yvert, A. Zadro. zny, M. Zanolin, T. Zelenova, J. -P. Zendri, M. Zevin, L. Zhang, M. Zhang, T. Zhang, Y. -H. Zhang, C. Zhao, M. Zhou, Z. Zhou, X. J. Zhu, M. E. Zucker, J. Zweizig

During their first observational run, the two Advanced LIGO detectors attained an unprecedented sensitivity, resulting in the first direct detections of gravitational-wave signals and GW151226, produced by stellar-mass binary black hole systems. This paper reports on an all-sky search for gravitational waves (GWs) from merging intermediate mass black hole binaries (IMBHBs). The combined results from two independent search techniques were used in this study: the first employs a matched-filter algorithm that uses a bank of filters covering the GW signal parameter space, while the second is a generic search for GW transients (bursts). Read More

Vision and language understanding has emerged as a subject undergoing intense study in Artificial Intelligence. Among many tasks in this line of research, visual question answering (VQA) has been one of the most successful ones, where the goal is to learn a model that understands visual content at region-level details and finds their associations with pairs of questions and answers in the natural language form. Despite the rapid progress in the past few years, most existing work in VQA have focused primarily on images. Read More

2017Apr
Authors: The LIGO Scientific Collaboration, the Virgo Collaboration, B. P. Abbott, R. Abbott, T. D. Abbott, F. Acernese, K. Ackley, C. Adams, T. Adams, P. Addesso, R. X. Adhikari, V. B. Adya, C. Affeldt, M. Afrough, B. Agarwal, K. Agatsuma, N. Aggarwal, O. D. Aguiar, L. Aiello, A. Ain, P. Ajith, B. Allen, G. Allen, A. Allocca, H. Almoubayyed, P. A. Altin, A. Amato, A. Ananyeva, S. B. Anderson, W. G. Anderson, S. Antier, S. Appert, K. Arai, M. C. Araya, J. S. Areeda, N. Arnaud, K. G. Arun, S. Ascenzi, G. Ashton, M. Ast, S. M. Aston, P. Astone, P. Aufmuth, C. Aulbert, K. AultONeal, A. Avila-Alvarez, S. Babak, P. Bacon, M. K. M. Bader, S. Bae, P. T. Baker, F. Baldaccini, G. Ballardin, S. W. Ballmer, S. Banagiri, J. C. Barayoga, S. E. Barclay, B. C. Barish, D. Barker, F. Barone, B. Barr, L. Barsotti, M. Barsuglia, D. Barta, J. Bartlett, I. Bartos, R. Bassiri, A. Basti, J. C. Batch, C. Baune, M. Bawaj, M. Bazzan, B. B'ecsy, C. Beer, M. Bejger, I. Belahcene, A. S. Bell, B. K. Berger, G. Bergmann, C. P. L. Berry, D. Bersanetti, A. Bertolini, Z. B. Etienne, J. Betzwieser, S. Bhagwat, R. Bhandare, I. A. Bilenko, G. Billingsley, C. R. Billman, J. Birch, R. Birney, O. Birnholtz, S. Biscans, A. Bisht, M. Bitossi, C. Biwer, M. A. Bizouard, J. K. Blackburn, J. Blackman, C. D. Blair, D. G. Blair, R. M. Blair, S. Bloemen, O. Bock, N. Bode, M. Boer, G. Bogaert, A. Bohe, F. Bondu, R. Bonnand, B. A. Boom, R. Bork, V. Boschi, S. Bose, Y. Bouffanais, A. Bozzi, C. Bradaschia, P. R. Brady, V. B. Braginsky, M. Branchesi, J. E. Brau, T. Briant, A. Brillet, M. Brinkmann, V. Brisson, P. Brockill, J. E. Broida, A. F. Brooks, D. A. Brown, D. D. Brown, N. M. Brown, S. Brunett, C. C. Buchanan, A. Buikema, T. Bulik, H. J. Bulten, A. Buonanno, D. Buskulic, C. Buy, R. L. Byer, M. Cabero, L. Cadonati, G. Cagnoli, C. Cahillane, J. Calder'on Bustillo, T. A. Callister, E. Calloni, J. B. Camp, M. Canepa, P. Canizares, K. C. Cannon, H. Cao, J. Cao, C. D. Capano, E. Capocasa, F. Carbognani, S. Caride, M. F. Carney, J. Casanueva Diaz, C. Casentini, S. Caudill, M. Cavagli`a, F. Cavalier, R. Cavalieri, G. Cella, C. B. Cepeda, L. Cerboni Baiardi, G. Cerretani, E. Cesarini, S. J. Chamberlin, M. Chan, S. Chao, P. Charlton, E. Chassande-Mottin, D. Chatterjee, B. D. Cheeseboro, H. Y. Chen, Y. Chen, H. -P. Cheng, A. Chincarini, A. Chiummo, T. Chmiel, H. S. Cho, M. Cho, J. H. Chow, N. Christensen, Q. Chu, A. J. K. Chua, S. Chua, A. K. W. Chung, S. Chung, G. Ciani, R. Ciolfi, C. E. Cirelli, A. Cirone, F. Clara, J. A. Clark, F. Cleva, C. Cocchieri, E. Coccia, P. -F. Cohadon, A. Colla, C. G. Collette, L. R. Cominsky, M. Constancio Jr., L. Conti, S. J. Cooper, P. Corban, T. R. Corbitt, K. R. Corley, N. Cornish, A. Corsi, S. Cortese, C. A. Costa, M. W. Coughlin, S. B. Coughlin, J. -P. Coulon, S. T. Countryman, P. Couvares, P. B. Covas, E. E. Cowan, D. M. Coward, M. J. Cowart, D. C. Coyne, R. Coyne, J. D. E. Creighton, T. D. Creighton, J. Cripe, S. G. Crowder, T. J. Cullen, A. Cumming, L. Cunningham, E. Cuoco, T. Dal Canton, S. L. Danilishin, S. D'Antonio, K. Danzmann, A. Dasgupta, C. F. Da Silva Costa, V. Dattilo, I. Dave, M. Davier, G. S. Davies, D. Davis, E. J. Daw, B. Day, S. De, D. DeBra, E. Deelman, J. Degallaix, M. De Laurentis, S. Del'eglise, W. Del Pozzo, T. Denker, T. Dent, V. Dergachev, R. De Rosa, R. T. DeRosa, R. DeSalvo, J. Devenson, R. C. Devine, S. Dhurandhar, M. C. D'iaz, L. Di Fiore, M. Di Giovanni, T. Di Girolamo, A. Di Lieto, S. Di Pace, I. Di Palma, F. Di Renzo, Z. Doctor, V. Dolique, F. Donovan, K. L. Dooley, S. Doravari, I. Dorrington, R. Douglas, M. Dovale 'Alvarez, T. P. Downes, M. Drago, R. W. P. Drever, J. C. Driggers, Z. Du, M. Ducrot, J. Duncan, S. E. Dwyer, T. B. Edo, M. C. Edwards, A. Effler, H. -B. Eggenstein, P. Ehrens, J. Eichholz, S. S. Eikenberry, R. C. Essick, T. Etzel, M. Evans, T. M. Evans, M. Factourovich, V. Fafone, H. Fair, S. Fairhurst, X. Fan, S. Farinon, B. Farr, W. M. Farr, E. J. Fauchon-Jones, M. Favata, M. Fays, H. Fehrmann, J. Feicht, M. M. Fejer, A. Fernandez-Galiana, I. Ferrante, E. C. Ferreira, F. Ferrini, F. Fidecaro, I. Fiori, D. Fiorucci, R. P. Fisher, R. Flaminio, M. Fletcher, H. Fong, P. W. F. Forsyth, S. S. Forsyth, J. -D. Fournier, S. Frasca, F. Frasconi, Z. Frei, A. Freise, R. Frey, V. Frey, E. M. Fries, P. Fritschel, V. V. Frolov, P. Fulda, M. Fyffe, H. Gabbard, M. Gabel, B. U. Gadre, S. M. Gaebel, J. R. Gair, L. Gammaitoni, M. R. Ganija, S. G. Gaonkar, F. Garufi, S. Gaudio, G. Gaur, V. Gayathri, N. Gehrels, G. Gemme, E. Genin, A. Gennai, D. George, J. George, L. Gergely, V. Germain, S. Ghonge, Abhirup Ghosh, Archisman Ghosh, S. Ghosh, J. A. Giaime, K. D. Giardina, A. Giazotto, K. Gill, L. Glover, E. Goetz, R. Goetz, S. Gomes, G. Gonz'alez, J. M. Gonzalez Castro, A. Gopakumar, M. L. Gorodetsky, S. E. Gossan, M. Gosselin, R. Gouaty, A. Grado, C. Graef, M. Granata, A. Grant, S. Gras, C. Gray, G. Greco, A. C. Green, P. Groot, H. Grote, S. Grunewald, P. Gruning, G. M. Guidi, X. Guo, A. Gupta, M. K. Gupta, K. E. Gushwa, E. K. Gustafson, R. Gustafson, B. R. Hall, E. D. Hall, G. Hammond, M. Haney, M. M. Hanke, J. Hanks, C. Hanna, O. A. Hannuksela, J. Hanson, T. Hardwick, J. Harms, G. M. Harry, I. W. Harry, M. J. Hart, C. -J. Haster, K. Haughian, J. Healy, A. Heidmann, M. C. Heintze, H. Heitmann, P. Hello, G. Hemming, M. Hendry, I. S. Heng, J. Hennig, J. Henry, A. W. Heptonstall, M. Heurs, S. Hild, D. Hoak, D. Hofman, K. Holt, D. E. Holz, P. Hopkins, C. Horst, J. Hough, E. A. Houston, E. J. Howell, Y. M. Hu, E. A. Huerta, D. Huet, B. Hughey, S. Husa, S. H. Huttner, T. Huynh-Dinh, N. Indik, D. R. Ingram, R. Inta, G. Intini, H. N. Isa, J. -M. Isac, M. Isi, B. R. Iyer, K. Izumi, T. Jacqmin, K. Jani, P. Jaranowski, S. Jawahar, F. Jim'enez-Forteza, W. W. Johnson, D. I. Jones, R. Jones, R. J. G. Jonker, L. Ju, J. Junker, C. V. Kalaghatgi, V. Kalogera, S. Kandhasamy, G. Kang, J. B. Kanner, S. Karki, K. S. Karvinen, M. Kasprzack, M. Katolik, E. Katsavounidis, W. Katzman, S. Kaufer, K. Kawabe, F. K'ef'elian, D. Keitel, A. J. Kemball, R. Kennedy, C. Kent, J. S. Key, F. Y. Khalili, I. Khan, S. Khan, Z. Khan, E. A. Khazanov, N. Kijbunchoo, Chunglee Kim, J. C. Kim, W. Kim, W. S. Kim, Y. -M. Kim, S. J. Kimbrell, E. J. King, P. J. King, R. Kirchhoff, J. S. Kissel, L. Kleybolte, S. Klimenko, P. Koch, S. M. Koehlenbeck, S. Koley, V. Kondrashov, A. Kontos, M. Korobko, W. Z. Korth, I. Kowalska, D. B. Kozak, C. Kr"amer, V. Kringel, B. Krishnan, A. Kr'olak, G. Kuehn, P. Kumar, R. Kumar, S. Kumar, L. Kuo, A. Kutynia, S. Kwang, B. D. Lackey, K. H. Lai, M. Landry, R. N. Lang, J. Lange, B. Lantz, R. K. Lanza, A. Lartaux-Vollard, P. D. Lasky, M. Laxen, A. Lazzarini, C. Lazzaro, P. Leaci, S. Leavey, C. H. Lee, H. K. Lee, H. M. Lee, H. W. Lee, K. Lee, J. Lehmann, A. Lenon, M. Leonardi, N. Leroy, N. Letendre, Y. Levin, T. G. F. Li, A. Libson, T. B. Littenberg, J. Liu, N. A. Lockerbie, L. T. London, J. E. Lord, M. Lorenzini, V. Loriette, M. Lormand, G. Losurdo, J. D. Lough, G. Lovelace, H. L"uck, D. Lumaca, A. P. Lundgren, R. Lynch, Y. Ma, S. Macfoy, B. Machenschalk, M. MacInnis, D. M. Macleod, I. Magana Hernandez, F. Magana-Sandoval, L. Magana Zertuche, R. M. Magee, E. Majorana, I. Maksimovic, N. Man, V. Mandic, V. Mangano, G. L. Mansell, M. Manske, M. Mantovani, F. Marchesoni, F. Marion, S. M'arka, Z. M'arka, C. Markakis, A. S. Markosyan, E. Maros, F. Martelli, L. Martellini, I. W. Martin, D. V. Martynov, J. N. Marx, K. Mason, A. Masserot, T. J. Massinger, M. Masso-Reid, S. Mastrogiovanni, A. Matas, F. Matichard, L. Matone, N. Mavalvala, R. Mayani, N. Mazumder, R. McCarthy, D. E. McClelland, S. McCormick, L. McCuller, S. C. McGuire, G. McIntyre, J. McIver, D. J. McManus, T. McRae, S. T. McWilliams, D. Meacher, G. D. Meadors, J. Meidam, E. Mejuto-Villa, A. Melatos, G. Mendell, R. A. Mercer, E. L. Merilh, M. Merzougui, S. Meshkov, C. Messenger, C. Messick, R. Metzdorff, P. M. Meyers, F. Mezzani, H. Miao, C. Michel, H. Middleton, E. E. Mikhailov, L. Milano, A. L. Miller, A. Miller, B. B. Miller, J. Miller, M. Millhouse, O. Minazzoli, Y. Minenkov, J. Ming, C. Mishra, S. Mitra, V. P. Mitrofanov, G. Mitselmakher, R. Mittleman, A. Moggi, M. Mohan, S. R. P. Mohapatra, M. Montani, B. C. Moore, C. J. Moore, D. Moraru, G. Moreno, S. R. Morriss, B. Mours, C. M. Mow-Lowry, G. Mueller, A. W. Muir, Arunava Mukherjee, D. Mukherjee, S. Mukherjee, N. Mukund, A. Mullavey, J. Munch, E. A. M. Muniz, P. G. Murray, K. Napier, I. Nardecchia, L. Naticchioni, R. K. Nayak, G. Nelemans, T. J. N. Nelson, M. Neri, M. Nery, A. Neunzert, J. M. Newport, G. Newton, K. K. Y. Ng, T. T. Nguyen, D. Nichols, A. B. Nielsen, S. Nissanke, A. Nitz, A. Noack, F. Nocera, D. Nolting, M. E. N. Normandin, L. K. Nuttall, J. Oberling, E. Ochsner, E. Oelker, G. H. Ogin, J. J. Oh, S. H. Oh, F. Ohme, M. Oliver, P. Oppermann, Richard J. Oram, B. O'Reilly, R. Ormiston, L. F. Ortega, R. O'Shaughnessy, D. J. Ottaway, H. Overmier, B. J. Owen, A. E. Pace, J. Page, M. A. Page, A. Pai, S. A. Pai, J. R. Palamos, O. Palashov, C. Palomba, A. Pal-Singh, H. Pan, B. Pang, P. T. H. Pang, C. Pankow, F. Pannarale, B. C. Pant, F. Paoletti, A. Paoli, M. A. Papa, H. R. Paris, W. Parker, D. Pascucci, A. Pasqualetti, R. Passaquieti, D. Passuello, B. Patricelli, B. L. Pearlstone, M. Pedraza, R. Pedurand, L. Pekowsky, A. Pele, S. Penn, C. J. Perez, A. Perreca, L. M. Perri, H. P. Pfeiffer, M. Phelps, O. J. Piccinni, M. Pichot, F. Piergiovanni, V. Pierro, G. Pillant, L. Pinard, I. M. Pinto, M. Pitkin, R. Poggiani, P. Popolizio, E. K. Porter, A. Post, J. Powell, J. Prasad, J. W. W. Pratt, V. Predoi, T. Prestegard, M. Prijatelj, M. Principe, S. Privitera, R. Prix, G. A. Prodi, L. G. Prokhorov, O. Puncken, M. Punturo, P. Puppo, M. P"urrer, H. Qi, J. Qin, S. Qiu, V. Quetschke, E. A. Quintero, R. Quitzow-James, F. J. Raab, D. S. Rabeling, H. Radkins, P. Raffai, S. Raja, C. Rajan, M. Rakhmanov, K. E. Ramirez, P. Rapagnani, V. Raymond, M. Razzano, J. Read, T. Regimbau, L. Rei, S. Reid, D. H. Reitze, H. Rew, S. D. Reyes, F. Ricci, P. M. Ricker, S. Rieger, K. Riles, M. Rizzo, N. A. Robertson, R. Robie, F. Robinet, A. Rocchi, L. Rolland, J. G. Rollins, V. J. Roma, R. Romano, C. L. Romel, J. H. Romie, D. Rosi'nska, M. P. Ross, S. Rowan, A. R"udiger, P. Ruggi, K. Ryan, M. Rynge, S. Sachdev, T. Sadecki, L. Sadeghian, M. Sakellariadou, L. Salconi, M. Saleem, F. Salemi, A. Samajdar, L. Sammut, L. M. Sampson, E. J. Sanchez, V. Sandberg, B. Sandeen, J. R. Sanders, B. Sassolas, B. S. Sathyaprakash, P. R. Saulson, O. Sauter, R. L. Savage, A. Sawadsky, P. Schale, J. Scheuer, E. Schmidt, J. Schmidt, P. Schmidt, R. Schnabel, R. M. S. Schofield, A. Sch"onbeck, E. Schreiber, D. Schuette, B. W. Schulte, B. F. Schutz, S. G. Schwalbe, J. Scott, S. M. Scott, E. Seidel, D. Sellers, A. S. Sengupta, D. Sentenac, V. Sequino, A. Sergeev, D. A. Shaddock, T. J. Shaffer, A. A. Shah, M. S. Shahriar, L. Shao, B. Shapiro, P. Shawhan, A. Sheperd, D. H. Shoemaker, D. M. Shoemaker, K. Siellez, X. Siemens, M. Sieniawska, D. Sigg, A. D. Silva, A. Singer, L. P. Singer, A. Singh, R. Singh, A. Singhal, A. M. Sintes, B. J. J. Slagmolen, B. Smith, J. R. Smith, R. J. E. Smith, E. J. Son, J. A. Sonnenberg, B. Sorazu, F. Sorrentino, T. Souradeep, A. P. Spencer, A. K. Srivastava, A. Staley, M. Steinke, J. Steinlechner, S. Steinlechner, D. Steinmeyer, B. C. Stephens, R. Stone, K. A. Strain, G. Stratta, S. E. Strigin, R. Sturani, A. L. Stuver, T. Z. Summerscales, L. Sun, S. Sunil, P. J. Sutton, B. L. Swinkels, M. J. Szczepa'nczyk, M. Tacca, D. Talukder, D. B. Tanner, M. T'apai, A. Taracchini, J. A. Taylor, R. Taylor, T. Theeg, E. G. Thomas, M. Thomas, P. Thomas, K. A. Thorne, K. S. Thorne, E. Thrane, S. Tiwari, V. Tiwari, K. V. Tokmakov, K. Toland, M. Tonelli, Z. Tornasi, C. I. Torrie, D. T"oyr"a, F. Travasso, G. Traylor, D. Trifir`o, J. Trinastic, M. C. Tringali, L. Trozzo, K. W. Tsang, M. Tse, R. Tso, D. Tuyenbayev, K. Ueno, D. Ugolini, C. S. Unnikrishnan, A. L. Urban, S. A. Usman, K. Vahi, H. Vahlbruch, G. Vajente, G. Valdes, N. van Bakel, M. van Beuzekom, J. F. J. van den Brand, C. Van Den Broeck, D. C. Vander-Hyde, L. van der Schaaf, J. V. van Heijningen, A. A. van Veggel, M. Vardaro, V. Varma, S. Vass, M. Vas'uth, A. Vecchio, G. Vedovato, J. Veitch, P. J. Veitch, K. Venkateswara, G. Venugopalan, D. Verkindt, F. Vetrano, A. Vicer'e, A. D. Viets, S. Vinciguerra, D. J. Vine, J. -Y. Vinet, S. Vitale, T. Vo, H. Vocca, C. Vorvick, D. V. Voss, W. D. Vousden, S. P. Vyatchanin, A. R. Wade, L. E. Wade, M. Wade, R. Walet, M. Walker, L. Wallace, S. Walsh, G. Wang, H. Wang, J. Z. Wang, M. Wang, Y. -F. Wang, Y. Wang, R. L. Ward, J. Warner, M. Was, J. Watchi, B. Weaver, L. -W. Wei, M. Weinert, A. J. Weinstein, R. Weiss, L. Wen, E. K. Wessel, P. Wessels, T. Westphal, K. Wette, J. T. Whelan, B. F. Whiting, C. Whittle, D. Williams, R. D. Williams, A. R. Williamson, J. L. Willis, B. Willke, M. H. Wimmer, W. Winkler, C. C. Wipf, H. Wittel, G. Woan, J. Woehler, J. Wofford, K. W. K. Wong, J. Worden, J. L. Wright, D. S. Wu, G. Wu, W. Yam, H. Yamamoto, C. C. Yancey, M. J. Yap, Hang Yu, Haocun Yu, M. Yvert, A. Zadro. zny, M. Zanolin, T. Zelenova, J. -P. Zendri, M. Zevin, L. Zhang, M. Zhang, T. Zhang, Y. -H. Zhang, C. Zhao, M. Zhou, Z. Zhou, X. J. Zhu, M. E. Zucker, J. Zweizig, S. Suvorova, W. Moran, R. J. Evans

Results are presented from a semi-coherent search for continuous gravitational waves from the brightest low-mass X-ray binary, Scorpius X-1, using data collected during the first Advanced LIGO observing run (O1). The search combines a frequency domain matched filter (Bessel-weighted $\mathcal{F}$-statistic) with a hidden Markov model to track wandering of the neutron star spin frequency. No evidence of gravitational waves is found in the frequency range 60-650 Hz. Read More

Fracton topological order describes a remarkable phase of matter which can be characterized by fracton excitations with constrained dynamics and a ground state degeneracy that increases exponentially with the length of the system on a three-dimensional torus. However, previous models exhibiting this order require many-spin interactions which may be very difficult to realize in a real material or cold atom system. In this work, we present a more physically realistic model which has the so-called X-cube fracton topological order but only requires nearest-neighbor two-spin interactions. Read More

In this paper, we investigate the existence of Ulrich bundles on a smooth complete intersection of two $4$-dimensional quadrics in $\mathbb P^5$ by two completely different methods. First, we find good ACM curves and use Serre correspondence in order to construct Ulrich bundles, which is analogous to the construction on a cubic threefold by Casanellas-Hartshorne-Geiss-Schreyer. Next, we use Bondal-Orlov's semiorthogonal decomposition of the derived category of coherent sheaves to analyze Ulrich bundles. Read More

With virtual reality, digital painting on 2D canvases is now being extended to 3D spaces. Tilt Brush and Oculus Quill are widely accepted among artists as tools that pave the way to a new form of art - 3D emmersive painting. Current 3D painting systems are only a start, emitting textured triangular geometries. Read More

2017Apr
Authors: Belle Collaboration, K. Chilikin, I. Adachi, H. Aihara, S. Al Said, D. M. Asner, V. Aulchenko, R. Ayad, V. Babu, I. Badhrees, A. M. Bakich, V. Bansal, E. Barberio, D. Besson, V. Bhardwaj, B. Bhuyan, J. Biswal, A. Bobrov, A. Bondar, A. Bozek, M. Bračko, T. E. Browder, D. Červenkov, V. Chekelian, A. Chen, B. G. Cheon, K. Cho, Y. Choi, D. Cinabro, N. Dash, S. Di Carlo, Z. Doležal, Z. Drásal, D. Dutta, S. Eidelman, H. Farhat, J. E. Fast, T. Ferber, B. G. Fulsom, V. Gaur, N. Gabyshev, A. Garmash, R. Gillard, P. Goldenzweig, J. Haba, T. Hara, K. Hayasaka, W. -S. Hou, K. Inami, A. Ishikawa, R. Itoh, Y. Iwasaki, W. W. Jacobs, I. Jaegle, H. B. Jeon, Y. Jin, D. Joffe, K. K. Joo, T. Julius, K. H. Kang, G. Karyan, P. Katrenko, D. Y. Kim, H. J. Kim, J. B. Kim, K. T. Kim, M. J. Kim, S. H. Kim, Y. J. Kim, K. Kinoshita, P. Kodyš, S. Korpar, D. Kotchetkov, P. Križan, P. Krokovny, T. Kuhr, R. Kulasiri, A. Kuzmin, Y. -J. Kwon, J. S. Lange, L. Li, L. Li Gioi, J. Libby, D. Liventsev, M. Lubej, T. Luo, M. Masuda, T. Matsuda, D. Matvienko, K. Miyabayashi, H. Miyata, R. Mizuk, G. B. Mohanty, H. K. Moon, T. Mori, R. Mussa, E. Nakano, M. Nakao, T. Nanut, K. J. Nath, Z. Natkaniec, M. Nayak, M. Niiyama, N. K. Nisar, S. Nishida, S. Ogawa, S. Okuno, S. L. Olsen, H. Ono, P. Pakhlov, G. Pakhlova, B. Pal, S. Pardi, H. Park, S. Paul, R. Pestotnik, L. E. Piilonen, C. Pulvermacher, M. Ritter, H. Sahoo, Y. Sakai, M. Salehi, S. Sandilya, L. Santelj, T. Sanuki, O. Schneider, G. Schnell, C. Schwanda, Y. Seino, K. Senyo, O. Seon, M. E. Sevior, V. Shebalin, C. P. Shen, T. -A. Shibata, J. -G. Shiu, A. Sokolov, E. Solovieva, M. Starič, T. Sumiyoshi, M. Takizawa, U. Tamponi, K. Tanida, F. Tenchini, K. Trabelsi, M. Uchida, S. Uehara, T. Uglov, S. Uno, Y. Usov, C. Van Hulse, G. Varner, A. Vinokurova, A. Vossen, C. H. Wang, M. -Z. Wang, P. Wang, M. Watanabe, Y. Watanabe, E. Widmann, E. Won, H. Yamamoto, Y. Yamashita, H. Ye, C. Z. Yuan, Y. Yusa, Z. P. Zhang, V. Zhilich, V. Zhulanov, A. Zupanc

We perform a full amplitude analysis of the process $e^+ e^- \rightarrow J/\psi D \bar{D}$, where $D$ refers to either $D^0$ or $D^+$. A new charmoniumlike state $X^*(3860)$ that decays to $D \bar{D}$ is observed with a significance of $6.5\sigma$. Read More

2017Mar
Authors: B. J. Mount, S. Hans, R. Rosero, M. Yeh, C. Chan, R. J. Gaitskell, D. Q. Huang, J. Makkinje, D. C. Malling, M. Pangilinan, C. A. Rhyne, W. C. Taylor, J. R. Verbus, Y. D. Kim, H. S. Lee, J. Lee, D. S. Leonard, J. Li, J. Belle, A. Cottle, W. H. Lippincott, D. J. Markley, T. J. Martin, M. Sarychev, T. E. Tope, M. Utes, R. Wang, I. Young, H. M. Araújo, A. J. Bailey, D. Bauer, D. Colling, A. Currie, S. Fayer, F. Froborg, S. Greenwood, W. G. Jones, V. Kasey, M. Khaleeq, I. Olcina, B. López Paredes, A. Richards, T. J. Sumner, A. Tomás, A. Vacheret, P. Brás, A. Lindote, M. I. Lopes, F. Neves, J. P. Rodrigues, C. Silva, V. N. Solovov, M. J. Barry, A. Cole, A. Dobi, W. R. Edwards, C. H. Faham, S. Fiorucci, N. J. Gantos, V. M. Gehman, M. G. D. Gilchriese, K. Hanzel, M. D. Hoff, K. Kamdin, K. T. Lesko, C. T. McConnell, K. O'Sullivan, K. C. Oliver-Mallory, S. J. Patton, J. S. Saba, P. Sorensen, K. J. Thomas, C. E. Tull, W. L. Waldron, M. S. Witherell, A. Bernstein, K. Kazkaz, J. Xu, D. Yu. Akimov, A. I. Bolozdynya, A. V. Khromov, A. M. Konovalov, A. V. Kumpan, V. V. Sosnovtsev, C. E. Dahl, D. Temples, M. C. Carmona-Benitez, L. de Viveiros, D. S. Akerib, H. Auyeung, T. P. Biesiadzinski, M. Breidenbach, R. Bramante, R. Conley, W. W. Craddock, A. Fan, A. Hau, C. M. Ignarra, W. Ji, H. J. Krebs, R. Linehan, C. Lee, S. Luitz, E. Mizrachi, M. E. Monzani, F. G. O'Neill, S. Pierson, M. Racine, B. N. Ratcliff, G. W. Shutt, T. A. Shutt, K. Skarpaas, K. Stifter, W. H. To, J. Va'vra, T. J. Whitis, W. J. Wisniewski, X. Bai, R. Bunker, R. Coughlen, C. Hjemfelt, R. Leonard, E. H. Miller, E. Morrison, J. Reichenbacher, R. W. Schnee, M. R. Stark, K. Sundarnath, D. R. Tiedt, M. Timalsina, P. Bauer, B. Carlson, M. Horn, M. Johnson, J. Keefner, C. Maupin, D. J. Taylor, S. Balashov, P. Ford, V. Francis, E. Holtom, A. Khazov, A. Kaboth, P. Majewski, J. A. Nikkel, J. O'Dell, R. M. Preece, M. G. D. van der Grinten, S. D. Worm, R. L. Mannino, T. M. Stiegler, P. A. Terman, R. C. Webb, C. Levy, J. Mock, M. Szydagis, J. K. Busenitz, M. Elnimr, J. Y-K. Hor, Y. Meng, A. Piepke, I. Stancu, L. Kreczko, B. Krikler, B. Penning, E. P. Bernard, R. G. Jacobsen, D. N. McKinsey, R. Watson, J. E. Cutter, S. El-Jurf, R. M. Gerhard, D. Hemer, S. Hillbrand, B. Holbrook, B. G. Lenardo, A. G. Manalaysay, J. A. Morad, S. Stephenson, J. A. Thomson, M. Tripathi, S. Uvarov, S. J. Haselschwardt, S. Kyre, C. Nehrkorn, H. N. Nelson, M. Solmaz, D. T. White, M. Cascella, J. E. Y. Dobson, C. Ghag, X. Liu, L. Manenti, L. Reichhart, S. Shaw, U. Utku, P. Beltrame, T. J. R. Davison, M. F. Marzioni, A. St. J. Murphy, A. Nilima, B. Boxer, S. Burdin, A. Greenall, S. Powell, H. J. Rose, P. Sutcliffe, J. Balajthy, T. K. Edberg, C. R. Hall, J. S. Silk, S. Hertel, C. W. Akerlof, M. Arthurs, W. Lorenzon, K. Pushkin, M. Schubnell, K. E. Boast, C. Carels, T. Fruth, H. Kraus, F. -T. Liao, J. Lin, P. R. Scovell, E. Druszkiewicz, D. Khaitan, M. Koyuncu, W. Skulski, F. L. H. Wolfs, J. Yin, E. V. Korolkova, V. A. Kudryavtsev, P. Rossiter, D. Woodward, A. A. Chiller, C. Chiller, D. -M. Mei, L. Wang, W. -Z. Wei, M. While, C. Zhang, S. K. Alsum, T. Benson, D. L. Carlsmith, J. J. Cherwinka, S. Dasu, G. Gregerson, B. Gomber, A. Pagac, K. J. Palladino, C. O. Vuosalo, Q. Xiao, J. H. Buckley, V. V. Bugaev, M. A. Olevitch, E. M. Boulton, W. T. Emmet, T. W. Hurteau, N. A. Larsen, E. K. Pease, B. P. Tennyson, L. Tvrznikova

In this Technical Design Report (TDR) we describe the LZ detector to be built at the Sanford Underground Research Facility (SURF). The LZ dark matter experiment is designed to achieve sensitivity to a WIMP-nucleon spin-independent cross section of three times ten to the negative forty-eighth square centimeters. Read More

Recently, thermal Hall effect has been observed in the paramagnetic state of Volborthite, which consists of distorted Kagome layers with $S=1/2$ local moments. Despite the appearance of a magnetic order below $1 \, \mathrm{K}$, the response to external magnetic field and unusual properties of the paramagnetic state above $1 \, \mathrm{K}$ suggest possible realization of exotic quantum phases. Motivated by these discoveries, we investigate possible spin liquid phases with fermionic spinon excitations in a non-symmorphic version of the Kagome lattice, which belongs to the two-dimensional crystallographic group $p2gg$. Read More

2017Mar
Authors: Belle Collaboration, C. Beleño, J. Dingfelder, P. Urquijo, H. Aihara, S. Al Said, D. M. Asner, T. Aushev, R. Ayad, V. Babu, I. Badhrees, A. M. Bakich, V. Bansal, P. Behera, B. Bhuyan, J. Biswal, A. Bobrov, M. Bračko, T. E. Browder, D. Červenkov, A. Chen, B. G. Cheon, R. Chistov, S. -K. Choi, Y. Choi, D. Cinabro, N. Dash, S. Di Carlo, Z. Doležal, S. Eidelman, H. Farhat, J. E. Fast, T. Ferber, A. Frey, B. G. Fulsom, V. Gaur, N. Gabyshev, A. Garmash, R. Gillard, P. Goldenzweig, T. Hara, H. Hayashii, M. T. Hedges, W. -S. Hou, T. Iijima, K. Inami, G. Inguglia, A. Ishikawa, R. Itoh, Y. Iwasaki, H. B. Jeon, Y. Jin, D. Joffe, K. K. Joo, K. H. Kang, G. Karyan, D. Y. Kim, J. B. Kim, K. T. Kim, M. J. Kim, Y. J. Kim, K. Kinoshita, P. Kodyš, S. Korpar, D. Kotchetkov, P. Križan, R. Kulasiri, I. S. Lee, Y. Li, L. Li Gioi, J. Libby, D. Liventsev, M. Lubej, T. Luo, M. Masuda, T. Matsuda, D. Matvienko, K. Miyabayashi, H. Miyata, H. K. Moon, T. Mori, E. Nakano, M. Nakao, T. Nanut, K. J. Nath, M. Nayak, S. Nishida, S. Ogawa, S. Okuno, H. Ono, B. Pal, C. -S. Park, C. W. Park, H. Park, T. K. Pedlar, R. Pestotnik, L. E. Piilonen, M. Ritter, Y. Sakai, M. Salehi, S. Sandilya, T. Sanuki, O. Schneider, G. Schnell, C. Schwanda, Y. Seino, K. Senyo, O. Seon, M. E. Sevior, V. Shebalin, T. -A. Shibata, J. -G. Shiu, F. Simon, E. Solovieva, M. Starič, T. Sumiyoshi, M. Takizawa, U. Tamponi, K. Tanida, F. Tenchini, M. Uchida, T. Uglov, Y. Unno, S. Uno, Y. Usov, C. Van Hulse, G. Varner, K. E. Varvell, A. Vinokurova, V. Vorobyev, C. H. Wang, M. -Z. Wang, P. Wang, Y. Watanabe, E. Widmann, E. Won, Y. Yamashita, H. Ye, J. Yelton, Y. Yook, Z. P. Zhang, V. Zhilich, V. Zhukova, V. Zhulanov, A. Zupanc

We report branching fraction measurements of the decays $B^+\to\eta\ell^+\nu_\ell$ and $B^+\to\eta^\prime\ell^+\nu_\ell$ based on 711~fb$^{-1}$ of data collected near the $\Upsilon(4S)$ resonance with the Belle experiment at the KEKB asymmetric-energy $e^+e^-$ collider. This data sample contains 772 million $B\bar B$~events. One of the two $B$~mesons is fully reconstructed in a hadronic decay mode. Read More

We introduce a weak notion of barycenter of a probability measure $\mu$ on a metric measure space $(X, d, {\bf m})$, with the metric $d$ and reference measure ${\bf m}$. Under the assumption that optimal transport plans are given by mappings, we prove that our barycenter $B(\mu)$ is well defined; it is a probability measure on $X$ supported on the set of the usual metric barycenter points of the given measure $\mu$. The definition uses the canonical embedding of the metric space $X$ into its Wasserstein space $P(X)$, pushing a given measure $\mu$ forward to a measure on $P(X)$. Read More

2017Mar
Authors: C. Aidala, N. N. Ajitanand, Y. Akiba, R. Akimoto, J. Alexander, M. Alfred, K. Aoki, N. Apadula, H. Asano, E. T. Atomssa, T. C. Awes, C. Ayuso, B. Azmoun, V. Babintsev, A. Bagoly, M. Bai, X. Bai, B. Bannier, K. N. Barish, S. Bathe, V. Baublis, C. Baumann, S. Baumgart, A. Bazilevsky, M. Beaumier, R. Belmont, A. Berdnikov, Y. Berdnikov, D. Black, D. S. Blau, M. Boer, J. S. Bok, K. Boyle, M. L. Brooks, J. Bryslawskyj, H. Buesching, V. Bumazhnov, C. Butler, S. Butsyk, S. Campbell, V. Canoa Roman, C. -H. Chen, C. Y. Chi, M. Chiu, I. J. Choi, J. B. Choi, S. Choi, P. Christiansen, T. Chujo, V. Cianciolo, B. A. Cole, M. Connors, N. Cronin, N. Crossette, M. Csanád, T. Csörgő, T. W. Danley, A. Datta, M. S. Daugherity, G. David, K. DeBlasio, K. Dehmelt, A. Denisov, A. Deshpande, E. J. Desmond, L. Ding, J. H. Do, L. D'Orazio, O. Drapier, A. Drees, K. A. Drees, M. Dumancic, J. M. Durham, A. Durum, T. Elder, T. Engelmore, A. Enokizono, S. Esumi, K. O. Eyser, B. Fadem, W. Fan, N. Feege, D. E. Fields, M. Finger, M. Finger, \, Jr., F. Fleuret, S. L. Fokin, J. E. Frantz, A. Franz, A. D. Frawley, Y. Fukao, Y. Fukuda, T. Fusayasu, K. Gainey, C. Gal, P. Garg, A. Garishvili, I. Garishvili, H. Ge, F. Giordano, A. Glenn, X. Gong, M. Gonin, Y. Goto, R. Granier de Cassagnac, N. Grau, S. V. Greene, M. Grosse Perdekamp, Y. Gu, T. Gunji, H. Guragain, T. Hachiya, J. S. Haggerty, K. I. Hahn, H. Hamagaki, S. Y. Han, J. Hanks, S. Hasegawa, T. O. S. Haseler, K. Hashimoto, R. Hayano, X. He, T. K. Hemmick, T. Hester, J. C. Hill, K. Hill, R. S. Hollis, K. Homma, B. Hong, T. Hoshino, N. Hotvedt, J. Huang, S. Huang, T. Ichihara, Y. Ikeda, K. Imai, Y. Imazu, J. Imrek, M. Inaba, A. Iordanova, D. Isenhower, A. Isinhue, Y. Ito, D. Ivanishchev, B. V. Jacak, S. J. Jeon, M. Jezghani, Z. Ji, J. Jia, X. Jiang, B. M. Johnson, K. S. Joo, V. Jorjadze, D. Jouan, D. S. Jumper, J. Kamin, S. Kanda, B. H. Kang, J. H. Kang, J. S. Kang, D. Kapukchyan, J. Kapustinsky, S. Karthas, D. Kawall, A. V. Kazantsev, J. A. Key, V. Khachatryan, P. K. Khandai, A. Khanzadeev, K. M. Kijima, C. Kim, D. J. Kim, E. -J. Kim, M. Kim, Y. -J. Kim, Y. K. Kim, D. Kincses, E. Kistenev, J. Klatsky, D. Kleinjan, P. Kline, T. Koblesky, M. Kofarago, B. Komkov, J. Koster, D. Kotchetkov, D. Kotov, F. Krizek, S. Kudo, K. Kurita, M. Kurosawa, Y. Kwon, R. Lacey, Y. S. Lai, J. G. Lajoie, E. O. Lallow, A. Lebedev, D. M. Lee, G. H. Lee, J. Lee, K. B. Lee, K. S. Lee, S. H. Lee, M. J. Leitch, M. Leitgab, Y. H. Leung, B. Lewis, N. A. Lewis, X. Li, X. Li, S. H. Lim, L. D. Liu, M. X. Liu, V. -R. Loggins, S. Lokos, D. Lynch, C. F. Maguire, T. Majoros, Y. I. Makdisi, M. Makek, M. Malaev, A. Manion, V. I. Manko, E. Mannel, H. Masuda, M. McCumber, P. L. McGaughey, D. McGlinchey, C. McKinney, A. Meles, M. Mendoza, B. Meredith, W. J. Metzger, Y. Miake, T. Mibe, A. C. Mignerey, D. E. Mihalik, A. Milov, D. K. Mishra, J. T. Mitchell, G. Mitsuka, S. Miyasaka, S. Mizuno, A. K. Mohanty, S. Mohapatra, T. Moon, D. P. Morrison, S. I. M. Morrow, M. Moskowitz, T. V. Moukhanova, T. Murakami, J. Murata, A. Mwai, T. Nagae, K. Nagai, S. Nagamiya, K. Nagashima, T. Nagashima, J. L. Nagle, M. I. Nagy, I. Nakagawa, H. Nakagomi, Y. Nakamiya, K. R. Nakamura, T. Nakamura, K. Nakano, C. Nattrass, P. K. Netrakanti, M. Nihashi, T. Niida, R. Nouicer, T. Novák, N. Novitzky, R. Novotny, A. S. Nyanin, E. O'Brien, C. A. Ogilvie, H. Oide, K. Okada, J. D. Orjuela Koop, J. D. Osborn, A. Oskarsson, K. Ozawa, R. Pak, V. Pantuev, V. Papavassiliou, I. H. Park, J. S. Park, S. Park, S. K. Park, S. F. Pate, L. Patel, M. Patel, J. -C. Peng, W. Peng, D. V. Perepelitsa, G. D. N. Perera, D. Yu. Peressounko, C. E. PerezLara, J. Perry, R. Petti, M. Phipps, C. Pinkenburg, R. P. Pisani, A. Pun, M. L. Purschke, H. Qu, P. V. Radzevich, J. Rak, I. Ravinovich, K. F. Read, D. Reynolds, V. Riabov, Y. Riabov, E. Richardson, D. Richford, T. Rinn, N. Riveli, D. Roach, S. D. Rolnick, M. Rosati, Z. Rowan, J. Runchey, M. S. Ryu, B. Sahlmueller, N. Saito, T. Sakaguchi, H. Sako, V. Samsonov, M. Sarsour, K. Sato, S. Sato, S. Sawada, B. Schaefer, B. K. Schmoll, K. Sedgwick, J. Seele, R. Seidl, Y. Sekiguchi, A. Sen, R. Seto, P. Sett, A. Sexton, D. Sharma, A. Shaver, I. Shein, T. -A. Shibata, K. Shigaki, M. Shimomura, K. Shoji, P. Shukla, A. Sickles, C. L. Silva, D. Silvermyr, B. K. Singh, C. P. Singh, V. Singh, M. J. Skoby, M. Skolnik, M. Slunečka, K. L. Smith, S. Solano, R. A. Soltz, W. E. Sondheim, S. P. Sorensen, I. V. Sourikova, P. W. Stankus, P. Steinberg, E. Stenlund, M. Stepanov, A. Ster, S. P. Stoll, M. R. Stone, T. Sugitate, A. Sukhanov, J. Sun, S. Syed, A. Takahara, A Takeda, A. Taketani, Y. Tanaka, K. Tanida, M. J. Tannenbaum, S. Tarafdar, A. Taranenko, G. Tarnai, E. Tennant, R. Tieulent, A. Timilsina, T. Todoroki, M. Tomášek, H. Torii, C. L. Towell, R. S. Towell, I. Tserruya, Y. Ueda, B. Ujvari, H. W. van Hecke, M. Vargyas, S. Vazquez-Carson, E. Vazquez-Zambrano, A. Veicht, J. Velkovska, R. Vértesi, M. Virius, V. Vrba, E. Vznuzdaev, X. R. Wang, Z. Wang, D. Watanabe, K. Watanabe, Y. Watanabe, Y. S. Watanabe, F. Wei, S. Whitaker, S. Wolin, C. P. Wong, C. L. Woody, M. Wysocki, B. Xia, C. Xu, Q. Xu, Y. L. Yamaguchi, A. Yanovich, P. Yin, S. Yokkaichi, J. H. Yoo, I. Yoon, Z. You, I. Younus, H. Yu, I. E. Yushmanov, W. A. Zajc, A. Zelenski, S. Zharko, S. Zhou, L. Zou

The cross section and transverse single-spin asymmetries of $\mu^{-}$ and $\mu^{+}$ from open heavy-flavor decays in polarized $p$+$p$ collisions at $\sqrt{s}=200$ GeV were measured by the PHENIX experiment during 2012 at the Relativistic Heavy Ion Collider. Because heavy-flavor production is dominated by gluon-gluon interactions at $\sqrt{s}=200$ GeV, these measurements offer a unique opportunity to obtain information on the trigluon correlation functions. The measurements are performed at forward and backward rapidity ($1. Read More

We revisited a mass ejection phenomenon that occurred in asteroid P/2010 A2 in terms of the dynamical properties of the dust particles and large fragments. We constructed a model assuming anisotropic ejection within a solid cone-shaped jet and succeeded in reproducing the time-variant features in archival observational images over ~3 years from 2010 January to 2012 October. When we assumed that the dust particles and fragments were ejected in the same direction from a point where no object had been detected in any observations, the anisotropic model can explain all of the observations including (i) the unique dust cloud morphology, (ii) the trail surface brightness and (iii) the motions of the fragments. Read More

The low-temperature magnetic phases in the layered honeycomb lattice material $\alpha$-RuCl$_3$ have been studied as a function of in-plane magnetic field. In zero field this material orders magnetically below 7 K with so-called zigzag order within the honeycomb planes. Neutron diffraction data show that a relatively small applied field of 2 T is sufficient to suppress the population of the magnetic domain in which the zigzag chains run along the field direction. Read More

The honeycomb Kitaev-Heisenberg model is a source of a quantum spin liquid with Majorana fermions and gauge flux excitations as fractional quasiparticles. In the quest of finding a pertinent material, $\alpha$-RuCl$_{3}$ recently emerged as a prime candidate. Here we unveil highly unusual low-temperature heat conductivity $\kappa$ of $\alpha$-RuCl$_{3}$: beyond a magnetic field of $B_c\approx$ 7. Read More

Photon anti-bunching, measured via the Hanbury-Brown-Twiss experiment, is one of the key signatures of quantum light and is tied to sub-Poissonian photon number statistics. Recently, it has been reported that photon anti-bunching or conditional sub-Poissonian photon number statistics can be obtained via second-order interference of mutually incoherent weak lasers and heralding based on photon counting. Here, we report theoretical analysis on the limits of manipulating conditional photon statistics via interference of weak lasers. Read More

We denote by $\mathcal{H}_{d,g,r}$ the Hilbert scheme of smooth curves, which is the union of components whose general point corresponds to a smooth irreducible and non-degenerate curve of degree $d$ and genus $g$ in $\PP^r$. In this note, we show that any non-empty $\mathcal{H}_{g+2,g,4}$ is irreducible without any restriction on the genus $g$. Our result augments the irreducibility result obtained earlier by Hristo Iliev(2006), in which several low genus $g\le 10$ cases have been left untreated. Read More

As the expressive depth of an emotional face differs with individuals, expressions, or situations, recognizing an expression using a single facial image at a moment is difficult. One of the approaches to alleviate this difficulty is using a video-based method that utilizes multiple frames to extract temporal information between facial expression images. In this paper, we attempt to utilize a generative image that is estimated based on a given single image. Read More

Three-dimensional (3D) deformations of 2D crystals offer a unique platform for electronic structure engineering. Deformed 2D materials have been theoretically predicted to exhibit electron transport behaviors distinct from that of the original materials, although experimental demonstrations of these effects are rare. Here we create a deformed artificial lattice of graphene by stacking it on a closely-packed array of dielectric nanospheres, where the graphene experiences periodic height modulation and lattice distortions. Read More

2017Mar
Authors: A. Albert1, M. Andre2, M. Anghinolfi3, G. Anton4, M. Ardid5, J. -J. Aubert6, T. Avgitas7, B. Baret8, J. Barrios-Marti9, S. Basa10, V. Bertin11, S. Biagi12, R. Bormuth13, S. Bourret14, M. C. Bouwhuis15, R. Bruijn16, J. Brunner17, J. Busto18, A. Capone19, L. Caramete20, J. Carr21, S. Celli22, T. Chiarusi23, M. Circella24, J. A. B. Coelho25, A. Coleiro26, R. Coniglione27, H. Costantini28, P. Coyle29, A. Creusot30, A. Deschamps31, G. De Bonis32, C. Distefano33, I. Di Palma34, C. Donzaud35, D. Dornic36, D. Drouhin37, T. Eberl38, I. El Bojaddaini39, D. Elsasser40, A. Enzenhofer41, I. Felis42, L. A. Fusco43, S. Galata44, P. Gay45, V. Giordano46, H. Glotin47, T. Gregoire48, R. Gracia Ruiz49, K. Graf50, S. Hallmann51, H. van Haren52, A. J. Heijboer53, Y. Hello54, J. J. Hernandez-Rey55, J. Hoessl56, J. Hofestadt57, C. Hugon58, G. Illuminati59, C. W. James60, M. de Jong61, M. Jongen62, M. Kadler63, O. Kalekin64, U. Katz65, D. Kiessling66, A. Kouchner67, M. Kreter68, I. Kreykenbohm69, V. Kulikovskiy70, C. Lachaud71, R. Lahmann72, D. Lefevre73, E. Leonora74, M. Lotze75, S. Loucatos76, M. Marcelin77, A. Margiotta78, A. Marinelli79, J. A. Martinez-Mora80, A. Mathieu81, R. Mele82, K. Melis83, T. Michael84, P. Migliozzi85, A. Moussa86, E. Nezri87, G. E. Pavalas88, C. Pellegrino89, C. Perrina90, P. Piattelli91, V. Popa92, T. Pradier93, L. Quinn94, C. Racca95, G. Riccobene96, A. Sanchez-Losa97, M. Saldana98, I. Salvadori99, D. F. E. Samtleben100, M. Sanguineti101, P. Sapienza102, F. Schussler103, C. Sieger104, M. Spurio105, Th. Stolarczyk106, M. Taiuti107, Y. Tayalati108, A. Trovato109, D. Turpin110, C. Tonnis111, B. Vallage112, C. Vallee113, V. Van Elewyck114, F. Versari115, D. Vivolo116, A. Vizzoca117, J. Wilms118, J. D. Zornoza119, J. Zuniga120, M. G. Aartsen121, M. Ackermann122, J. Adams123, J. A. Aguilar124, M. Ahlers125, M. Ahrens126, I. Al Samarai127, D. Altmann128, K. Andeen129, T. Anderson130, I. Ansseau131, G. Anton132, M. Archinger133, C. Arguelles134, J. Auffenberg135, S. Axani136, H. Bagherpour137, X. Bai138, S. W. Barwick139, V. Baum140, R. Bay141, J. J. Beatty142, J. Becker Tjus143, K. -H. Becker144, S. BenZvi145, D. Berley146, E. Bernardini147, D. Z. Besson148, G. Binder149, D. Bindig150, E. Blaufuss151, S. Blot152, C. Bohm153, M. Borner154, F. Bos155, D. Bose156, S. Boser157, O. Botner158, F. Bradascio159, J. Braun160, L. Brayeur161, H. -P. Bretz162, S. Bron163, A. Burgman164, T. Carver165, M. Casier166, E. Cheung167, D. Chirkin168, A. Christov169, K. Clark170, L. Classen171, S. Coenders172, G. H. Collin173, J. M. Conrad174, D. F. Cowen175, R. Cross176, M. Day177, J. P. A. M. de Andre178, C. De Clercq179, E. del Pino Rosendo180, H. Dembinski181, S. De Ridder182, P. Desiati183, K. D. de Vries184, G. de Wasseige185, M. de With186, T. DeYoung187, J. C. Diaz-Velez188, V. di Lorenzo189, H. Dujmovic190, J. P. Dumm191, M. Dunkman192, B. Eberhardt193, T. Ehrhardt194, B. Eichmann195, P. Eller196, S. Euler197, P. A. Evenson198, S. 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Affiliations: 1ANTARES Collaboration, 2ANTARES Collaboration, 3ANTARES Collaboration, 4ANTARES Collaboration, 5ANTARES Collaboration, 6ANTARES Collaboration, 7ANTARES Collaboration, 8ANTARES Collaboration, 9ANTARES Collaboration, 10ANTARES Collaboration, 11ANTARES Collaboration, 12ANTARES Collaboration, 13ANTARES Collaboration, 14ANTARES Collaboration, 15ANTARES Collaboration, 16ANTARES Collaboration, 17ANTARES Collaboration, 18ANTARES Collaboration, 19ANTARES Collaboration, 20ANTARES Collaboration, 21ANTARES Collaboration, 22ANTARES Collaboration, 23ANTARES Collaboration, 24ANTARES Collaboration, 25ANTARES Collaboration, 26ANTARES Collaboration, 27ANTARES Collaboration, 28ANTARES Collaboration, 29ANTARES Collaboration, 30ANTARES Collaboration, 31ANTARES Collaboration, 32ANTARES Collaboration, 33ANTARES Collaboration, 34ANTARES Collaboration, 35ANTARES Collaboration, 36ANTARES Collaboration, 37ANTARES Collaboration, 38ANTARES Collaboration, 39ANTARES Collaboration, 40ANTARES 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and Virgo Collaboration, 599LIGO Scientific Collaboration and Virgo Collaboration, 600LIGO Scientific Collaboration and Virgo Collaboration, 601LIGO Scientific Collaboration and Virgo Collaboration, 602LIGO Scientific Collaboration and Virgo Collaboration, 603LIGO Scientific Collaboration and Virgo Collaboration, 604LIGO Scientific Collaboration and Virgo Collaboration, 605LIGO Scientific Collaboration and Virgo Collaboration, 606LIGO Scientific Collaboration and Virgo Collaboration, 607LIGO Scientific Collaboration and Virgo Collaboration, 608LIGO Scientific Collaboration and Virgo Collaboration, 609LIGO Scientific Collaboration and Virgo Collaboration, 610LIGO Scientific Collaboration and Virgo Collaboration, 611LIGO Scientific Collaboration and Virgo Collaboration, 612LIGO Scientific Collaboration and Virgo Collaboration, 613LIGO Scientific Collaboration and Virgo Collaboration, 614LIGO Scientific Collaboration and Virgo Collaboration, 615LIGO Scientific Collaboration and Virgo Collaboration, 616LIGO Scientific Collaboration and Virgo Collaboration, 617LIGO Scientific Collaboration and Virgo Collaboration, 618LIGO Scientific Collaboration and Virgo Collaboration, 619LIGO Scientific Collaboration and Virgo Collaboration, 620LIGO Scientific Collaboration and Virgo Collaboration, 621LIGO Scientific Collaboration and Virgo Collaboration, 622LIGO Scientific Collaboration and Virgo Collaboration, 623LIGO Scientific Collaboration and Virgo Collaboration, 624LIGO Scientific Collaboration and Virgo Collaboration, 625LIGO Scientific Collaboration and Virgo Collaboration, 626LIGO Scientific Collaboration and Virgo Collaboration, 627LIGO Scientific Collaboration and Virgo Collaboration, 628LIGO Scientific Collaboration and Virgo Collaboration, 629LIGO Scientific Collaboration and Virgo Collaboration, 630LIGO Scientific Collaboration and Virgo Collaboration, 631LIGO Scientific Collaboration and Virgo Collaboration, 632LIGO Scientific Collaboration and Virgo Collaboration, 633LIGO Scientific Collaboration and Virgo Collaboration, 634LIGO Scientific Collaboration and Virgo Collaboration, 635LIGO Scientific Collaboration and Virgo Collaboration, 636LIGO Scientific Collaboration and Virgo Collaboration, 637LIGO Scientific Collaboration and Virgo Collaboration, 638LIGO Scientific Collaboration and Virgo Collaboration, 639LIGO Scientific Collaboration and Virgo Collaboration, 640LIGO Scientific Collaboration and Virgo Collaboration, 641LIGO Scientific Collaboration and Virgo Collaboration, 642LIGO Scientific Collaboration and Virgo Collaboration, 643LIGO Scientific Collaboration and Virgo Collaboration, 644LIGO Scientific Collaboration and Virgo Collaboration, 645LIGO Scientific Collaboration and Virgo Collaboration, 646LIGO Scientific Collaboration and Virgo Collaboration, 647LIGO Scientific Collaboration and Virgo Collaboration, 648LIGO Scientific Collaboration and Virgo Collaboration, 649LIGO Scientific Collaboration and Virgo Collaboration, 650LIGO Scientific Collaboration and Virgo Collaboration, 651LIGO Scientific Collaboration and Virgo Collaboration, 652LIGO Scientific Collaboration and Virgo Collaboration, 653LIGO Scientific Collaboration and Virgo Collaboration, 654LIGO Scientific Collaboration and Virgo Collaboration, 655LIGO Scientific Collaboration and Virgo Collaboration, 656LIGO Scientific Collaboration and Virgo Collaboration, 657LIGO Scientific Collaboration and Virgo Collaboration, 658LIGO Scientific Collaboration and Virgo Collaboration, 659LIGO Scientific Collaboration and Virgo Collaboration, 660LIGO Scientific Collaboration and Virgo Collaboration, 661LIGO Scientific Collaboration and Virgo Collaboration, 662LIGO Scientific Collaboration and Virgo Collaboration, 663LIGO Scientific Collaboration and Virgo Collaboration, 664LIGO Scientific Collaboration and Virgo Collaboration, 665LIGO Scientific Collaboration and Virgo Collaboration, 666LIGO Scientific Collaboration and Virgo Collaboration, 667LIGO Scientific Collaboration and Virgo Collaboration, 668LIGO Scientific Collaboration and Virgo Collaboration, 669LIGO Scientific Collaboration and Virgo Collaboration, 670LIGO Scientific Collaboration and Virgo Collaboration, 671LIGO Scientific Collaboration and Virgo Collaboration, 672LIGO Scientific Collaboration and Virgo Collaboration, 673LIGO Scientific Collaboration and Virgo Collaboration, 674LIGO Scientific Collaboration and Virgo Collaboration, 675LIGO Scientific Collaboration and Virgo Collaboration, 676LIGO Scientific Collaboration and Virgo Collaboration, 677LIGO Scientific Collaboration and Virgo Collaboration, 678LIGO Scientific Collaboration and Virgo Collaboration, 679LIGO Scientific Collaboration and Virgo Collaboration, 680LIGO Scientific Collaboration and Virgo Collaboration, 681LIGO Scientific Collaboration and Virgo Collaboration, 682LIGO Scientific Collaboration and Virgo Collaboration, 683LIGO Scientific Collaboration and Virgo Collaboration, 684LIGO Scientific Collaboration and Virgo Collaboration, 685LIGO Scientific Collaboration and Virgo Collaboration, 686LIGO Scientific Collaboration and Virgo Collaboration, 687LIGO Scientific Collaboration and Virgo Collaboration, 688LIGO Scientific Collaboration and Virgo Collaboration, 689LIGO Scientific Collaboration and Virgo Collaboration, 690LIGO Scientific Collaboration and Virgo Collaboration, 691LIGO Scientific Collaboration and Virgo Collaboration, 692LIGO Scientific Collaboration and Virgo Collaboration, 693LIGO Scientific Collaboration and Virgo Collaboration, 694LIGO Scientific Collaboration and Virgo Collaboration, 695LIGO Scientific Collaboration and Virgo Collaboration, 696LIGO Scientific Collaboration and Virgo Collaboration, 697LIGO Scientific Collaboration and Virgo Collaboration, 698LIGO Scientific Collaboration and Virgo Collaboration, 699LIGO Scientific Collaboration and Virgo Collaboration, 700LIGO Scientific Collaboration and Virgo Collaboration, 701LIGO Scientific Collaboration and Virgo Collaboration, 702LIGO Scientific Collaboration and Virgo Collaboration, 703LIGO Scientific Collaboration and Virgo Collaboration, 704LIGO Scientific Collaboration and Virgo Collaboration, 705LIGO Scientific Collaboration and Virgo Collaboration, 706LIGO Scientific Collaboration and Virgo Collaboration, 707LIGO Scientific Collaboration and Virgo Collaboration, 708LIGO Scientific Collaboration and Virgo Collaboration, 709LIGO Scientific Collaboration and Virgo Collaboration, 710LIGO Scientific Collaboration and Virgo Collaboration, 711LIGO Scientific Collaboration and Virgo Collaboration, 712LIGO Scientific Collaboration and Virgo Collaboration, 713LIGO Scientific Collaboration and Virgo Collaboration, 714LIGO Scientific Collaboration and Virgo Collaboration, 715LIGO Scientific Collaboration and Virgo Collaboration, 716LIGO Scientific Collaboration and Virgo Collaboration, 717LIGO Scientific Collaboration and Virgo Collaboration, 718LIGO Scientific Collaboration and Virgo Collaboration, 719LIGO Scientific Collaboration and Virgo Collaboration, 720LIGO Scientific Collaboration and Virgo Collaboration, 721LIGO Scientific Collaboration and Virgo Collaboration, 722LIGO Scientific Collaboration and Virgo Collaboration, 723LIGO Scientific Collaboration and Virgo Collaboration, 724LIGO Scientific Collaboration and Virgo Collaboration, 725LIGO Scientific Collaboration and Virgo Collaboration, 726LIGO Scientific Collaboration and Virgo Collaboration, 727LIGO Scientific Collaboration and Virgo Collaboration, 728LIGO Scientific Collaboration and Virgo Collaboration, 729LIGO Scientific Collaboration and Virgo Collaboration, 730LIGO Scientific Collaboration and Virgo Collaboration, 731LIGO Scientific Collaboration and Virgo Collaboration, 732LIGO Scientific Collaboration and Virgo Collaboration, 733LIGO Scientific Collaboration and Virgo Collaboration, 734LIGO Scientific Collaboration and Virgo Collaboration, 735LIGO Scientific Collaboration and Virgo Collaboration, 736LIGO Scientific Collaboration and Virgo Collaboration, 737LIGO Scientific Collaboration and Virgo Collaboration, 738LIGO Scientific Collaboration and Virgo Collaboration, 739LIGO Scientific Collaboration and Virgo Collaboration, 740LIGO Scientific Collaboration and Virgo Collaboration, 741LIGO Scientific Collaboration and Virgo Collaboration, 742LIGO Scientific Collaboration and Virgo Collaboration, 743LIGO Scientific Collaboration and Virgo Collaboration, 744LIGO Scientific Collaboration and Virgo Collaboration, 745LIGO Scientific Collaboration and Virgo Collaboration, 746LIGO Scientific Collaboration and Virgo Collaboration, 747LIGO Scientific Collaboration and Virgo Collaboration, 748LIGO Scientific Collaboration and Virgo Collaboration, 749LIGO Scientific Collaboration and Virgo Collaboration, 750LIGO Scientific Collaboration and Virgo Collaboration, 751LIGO Scientific Collaboration and Virgo Collaboration, 752LIGO Scientific Collaboration and Virgo Collaboration, 753LIGO Scientific Collaboration and Virgo Collaboration, 754LIGO Scientific Collaboration and Virgo Collaboration, 755LIGO Scientific Collaboration and Virgo Collaboration, 756LIGO Scientific Collaboration and Virgo Collaboration, 757LIGO Scientific Collaboration and Virgo Collaboration, 758LIGO Scientific Collaboration and Virgo Collaboration, 759LIGO Scientific Collaboration and Virgo Collaboration, 760LIGO Scientific Collaboration and Virgo Collaboration, 761LIGO Scientific Collaboration and Virgo Collaboration, 762LIGO Scientific Collaboration and Virgo Collaboration, 763LIGO Scientific Collaboration and Virgo Collaboration, 764LIGO Scientific Collaboration and Virgo Collaboration, 765LIGO Scientific Collaboration and Virgo Collaboration, 766LIGO Scientific Collaboration and Virgo Collaboration, 767LIGO Scientific Collaboration and Virgo Collaboration, 768LIGO Scientific Collaboration and Virgo Collaboration, 769LIGO Scientific Collaboration and Virgo Collaboration, 770LIGO Scientific Collaboration and Virgo Collaboration, 771LIGO Scientific Collaboration and Virgo Collaboration, 772LIGO Scientific Collaboration and Virgo Collaboration, 773LIGO Scientific Collaboration and Virgo Collaboration, 774LIGO Scientific Collaboration and Virgo Collaboration, 775LIGO Scientific Collaboration and Virgo Collaboration, 776LIGO Scientific Collaboration and Virgo Collaboration, 777LIGO Scientific Collaboration and Virgo Collaboration, 778LIGO Scientific Collaboration and Virgo Collaboration, 779LIGO Scientific Collaboration and Virgo Collaboration, 780LIGO Scientific Collaboration and Virgo Collaboration, 781LIGO Scientific Collaboration and Virgo Collaboration, 782LIGO Scientific Collaboration and Virgo Collaboration, 783LIGO Scientific Collaboration and Virgo Collaboration, 784LIGO Scientific Collaboration and Virgo Collaboration, 785LIGO Scientific Collaboration and Virgo Collaboration, 786LIGO Scientific Collaboration and Virgo Collaboration, 787LIGO Scientific Collaboration and Virgo Collaboration, 788LIGO Scientific Collaboration and Virgo Collaboration, 789LIGO Scientific Collaboration and Virgo Collaboration, 790LIGO Scientific Collaboration and Virgo Collaboration, 791LIGO Scientific Collaboration and Virgo Collaboration, 792LIGO Scientific Collaboration and Virgo Collaboration, 793LIGO Scientific Collaboration and Virgo Collaboration, 794LIGO Scientific Collaboration and Virgo Collaboration, 795LIGO Scientific Collaboration and Virgo Collaboration, 796LIGO Scientific Collaboration and Virgo Collaboration, 797LIGO Scientific Collaboration and Virgo Collaboration, 798LIGO Scientific Collaboration and Virgo Collaboration, 799LIGO Scientific Collaboration and Virgo Collaboration, 800LIGO Scientific Collaboration and Virgo Collaboration, 801LIGO Scientific Collaboration and Virgo Collaboration, 802LIGO Scientific Collaboration and Virgo Collaboration, 803LIGO Scientific Collaboration and Virgo Collaboration, 804LIGO Scientific Collaboration and Virgo Collaboration, 805LIGO Scientific Collaboration and Virgo Collaboration, 806LIGO Scientific Collaboration and Virgo Collaboration, 807LIGO Scientific Collaboration and Virgo Collaboration, 808LIGO Scientific Collaboration and Virgo Collaboration, 809LIGO Scientific Collaboration and Virgo Collaboration, 810LIGO Scientific Collaboration and Virgo Collaboration, 811LIGO Scientific Collaboration and Virgo Collaboration, 812LIGO Scientific Collaboration and Virgo Collaboration, 813LIGO Scientific Collaboration and Virgo Collaboration, 814LIGO Scientific Collaboration and Virgo Collaboration, 815LIGO Scientific Collaboration and Virgo Collaboration, 816LIGO Scientific Collaboration and Virgo Collaboration, 817LIGO Scientific Collaboration and Virgo Collaboration, 818LIGO Scientific Collaboration and Virgo Collaboration, 819LIGO Scientific Collaboration and Virgo Collaboration, 820LIGO Scientific Collaboration and Virgo Collaboration, 821LIGO Scientific Collaboration and Virgo Collaboration, 822LIGO Scientific Collaboration and Virgo Collaboration, 823LIGO Scientific Collaboration and Virgo Collaboration, 824LIGO Scientific Collaboration and Virgo Collaboration, 825LIGO Scientific Collaboration and Virgo Collaboration, 826LIGO Scientific Collaboration and Virgo Collaboration, 827LIGO Scientific Collaboration and Virgo Collaboration, 828LIGO Scientific Collaboration and Virgo Collaboration, 829LIGO Scientific Collaboration and Virgo Collaboration, 830LIGO Scientific Collaboration and Virgo Collaboration, 831LIGO Scientific Collaboration and Virgo Collaboration, 832LIGO Scientific Collaboration and Virgo Collaboration, 833LIGO Scientific Collaboration and Virgo Collaboration, 834LIGO Scientific Collaboration and Virgo Collaboration, 835LIGO Scientific Collaboration and Virgo Collaboration, 836LIGO Scientific Collaboration and Virgo Collaboration, 837LIGO Scientific Collaboration and Virgo Collaboration, 838LIGO Scientific Collaboration and Virgo Collaboration, 839LIGO Scientific Collaboration and Virgo Collaboration, 840LIGO Scientific Collaboration and Virgo Collaboration, 841LIGO Scientific Collaboration and Virgo Collaboration, 842LIGO Scientific Collaboration and Virgo Collaboration, 843LIGO Scientific Collaboration and Virgo Collaboration, 844LIGO Scientific Collaboration and Virgo Collaboration, 845LIGO Scientific Collaboration and Virgo Collaboration, 846LIGO Scientific Collaboration and Virgo Collaboration, 847LIGO Scientific Collaboration and Virgo Collaboration, 848LIGO Scientific Collaboration and Virgo Collaboration, 849LIGO Scientific Collaboration and Virgo Collaboration, 850LIGO Scientific Collaboration and Virgo Collaboration, 851LIGO Scientific Collaboration and Virgo Collaboration, 852LIGO Scientific Collaboration and Virgo Collaboration, 853LIGO Scientific Collaboration and Virgo Collaboration, 854LIGO Scientific Collaboration and Virgo Collaboration, 855LIGO Scientific Collaboration and Virgo Collaboration, 856LIGO Scientific Collaboration and Virgo Collaboration, 857LIGO Scientific Collaboration and Virgo Collaboration, 858LIGO Scientific Collaboration and Virgo Collaboration, 859LIGO Scientific Collaboration and Virgo Collaboration, 860LIGO Scientific Collaboration and Virgo Collaboration, 861LIGO Scientific Collaboration and Virgo Collaboration, 862LIGO Scientific Collaboration and Virgo Collaboration, 863LIGO Scientific Collaboration and Virgo Collaboration, 864LIGO Scientific Collaboration and Virgo Collaboration, 865LIGO Scientific Collaboration and Virgo Collaboration, 866LIGO Scientific Collaboration and Virgo Collaboration, 867LIGO Scientific Collaboration and Virgo Collaboration, 868LIGO Scientific Collaboration and Virgo Collaboration, 869LIGO Scientific Collaboration and Virgo Collaboration, 870LIGO Scientific Collaboration and Virgo Collaboration, 871LIGO Scientific Collaboration and Virgo Collaboration, 872LIGO Scientific Collaboration and Virgo Collaboration, 873LIGO Scientific Collaboration and Virgo Collaboration, 874LIGO Scientific Collaboration and Virgo Collaboration, 875LIGO Scientific Collaboration and Virgo Collaboration, 876LIGO Scientific Collaboration and Virgo Collaboration, 877LIGO Scientific Collaboration and Virgo Collaboration, 878LIGO Scientific Collaboration and Virgo Collaboration, 879LIGO Scientific Collaboration and Virgo Collaboration, 880LIGO Scientific Collaboration and Virgo Collaboration, 881LIGO Scientific Collaboration and Virgo Collaboration, 882LIGO Scientific Collaboration and Virgo Collaboration, 883LIGO Scientific Collaboration and Virgo Collaboration, 884LIGO Scientific Collaboration and Virgo Collaboration, 885LIGO Scientific Collaboration and Virgo Collaboration, 886LIGO Scientific Collaboration and Virgo Collaboration, 887LIGO Scientific Collaboration and Virgo Collaboration, 888LIGO Scientific Collaboration and Virgo Collaboration, 889LIGO Scientific Collaboration and Virgo Collaboration, 890LIGO Scientific Collaboration and Virgo Collaboration, 891LIGO Scientific Collaboration and Virgo Collaboration, 892LIGO Scientific Collaboration and Virgo Collaboration, 893LIGO Scientific Collaboration and Virgo Collaboration, 894LIGO Scientific Collaboration and Virgo Collaboration, 895LIGO Scientific Collaboration and Virgo Collaboration, 896LIGO Scientific Collaboration and Virgo Collaboration, 897LIGO Scientific Collaboration and Virgo Collaboration, 898LIGO Scientific Collaboration and Virgo Collaboration, 899LIGO Scientific Collaboration and Virgo Collaboration, 900LIGO Scientific Collaboration and Virgo Collaboration, 901LIGO Scientific Collaboration and Virgo Collaboration, 902LIGO Scientific Collaboration and Virgo Collaboration, 903LIGO Scientific Collaboration and Virgo Collaboration, 904LIGO Scientific Collaboration and Virgo Collaboration, 905LIGO Scientific Collaboration and Virgo Collaboration, 906LIGO Scientific Collaboration and Virgo Collaboration, 907LIGO Scientific Collaboration and Virgo Collaboration, 908LIGO Scientific Collaboration and Virgo Collaboration, 909LIGO Scientific Collaboration and Virgo Collaboration, 910LIGO Scientific Collaboration and Virgo Collaboration, 911LIGO Scientific Collaboration and Virgo Collaboration, 912LIGO Scientific Collaboration and Virgo Collaboration, 913LIGO Scientific Collaboration and Virgo Collaboration, 914LIGO Scientific Collaboration and Virgo Collaboration, 915LIGO Scientific Collaboration and Virgo Collaboration, 916LIGO Scientific Collaboration and Virgo Collaboration, 917LIGO Scientific Collaboration and Virgo Collaboration, 918LIGO Scientific Collaboration and Virgo Collaboration, 919LIGO Scientific Collaboration and Virgo Collaboration, 920LIGO Scientific Collaboration and Virgo Collaboration, 921LIGO Scientific Collaboration and Virgo Collaboration, 922LIGO Scientific Collaboration and Virgo Collaboration, 923LIGO Scientific Collaboration and Virgo Collaboration, 924LIGO Scientific Collaboration and Virgo Collaboration, 925LIGO Scientific Collaboration and Virgo Collaboration, 926LIGO Scientific Collaboration and Virgo Collaboration, 927LIGO Scientific Collaboration and Virgo Collaboration, 928LIGO Scientific Collaboration and Virgo Collaboration, 929LIGO Scientific Collaboration and Virgo Collaboration, 930LIGO Scientific Collaboration and Virgo Collaboration, 931LIGO Scientific Collaboration and Virgo Collaboration, 932LIGO Scientific Collaboration and Virgo Collaboration, 933LIGO Scientific Collaboration and Virgo Collaboration, 934LIGO Scientific Collaboration and Virgo Collaboration, 935LIGO Scientific Collaboration and Virgo Collaboration, 936LIGO Scientific Collaboration and Virgo Collaboration, 937LIGO Scientific Collaboration and Virgo Collaboration, 938LIGO Scientific Collaboration and Virgo Collaboration, 939LIGO Scientific Collaboration and Virgo Collaboration, 940LIGO Scientific Collaboration and Virgo Collaboration, 941LIGO Scientific Collaboration and Virgo Collaboration, 942LIGO Scientific Collaboration and Virgo Collaboration, 943LIGO Scientific Collaboration and Virgo Collaboration, 944LIGO Scientific Collaboration and Virgo Collaboration, 945LIGO Scientific Collaboration and Virgo Collaboration, 946LIGO Scientific Collaboration and Virgo Collaboration, 947LIGO Scientific Collaboration and Virgo Collaboration, 948LIGO Scientific Collaboration and Virgo Collaboration, 949LIGO Scientific Collaboration and Virgo Collaboration, 950LIGO Scientific Collaboration and Virgo Collaboration, 951LIGO Scientific Collaboration and Virgo Collaboration, 952LIGO Scientific Collaboration and Virgo Collaboration, 953LIGO Scientific Collaboration and Virgo Collaboration, 954LIGO Scientific Collaboration and Virgo Collaboration, 955LIGO Scientific Collaboration and Virgo Collaboration, 956LIGO Scientific Collaboration and Virgo Collaboration, 957LIGO Scientific Collaboration and Virgo Collaboration, 958LIGO Scientific Collaboration and Virgo Collaboration, 959LIGO Scientific Collaboration and Virgo Collaboration, 960LIGO Scientific Collaboration and Virgo Collaboration, 961LIGO Scientific Collaboration and Virgo Collaboration, 962LIGO Scientific Collaboration and Virgo Collaboration, 963LIGO Scientific Collaboration and Virgo Collaboration, 964LIGO Scientific Collaboration and Virgo Collaboration, 965LIGO Scientific Collaboration and Virgo Collaboration, 966LIGO Scientific Collaboration and Virgo Collaboration, 967LIGO Scientific Collaboration and Virgo Collaboration, 968LIGO Scientific Collaboration and Virgo