Results 101 to 110 of about 356,721 (378)
Science Requirements and Detector Concepts for the Electron-Ion Collider [PDF]
Nuclear Physics, 2021 R. A. Khalek, A. Accardi, J. Adam, D. Adamiak, W. Akers, M. Albaladejo, A. Al-bataineh, M. Alexeev, F. Ameli, P. Antonioli, N. Armesto, W. Armstrong, M. Arratia, J. Arrington, A. Asaturyan, M. Asai, E. Aschenauer, S. Aune, H. Avagyan, C. Gayoso, B. Azmoun, A. Bacchetta, M. Baker, F. Barbosa, L. Barion, K. Barish, P. Barry, M. Battaglieri, A. Bazilevsky, N. Behera, F. Benmokhtar, V. Berdnikov, J. Bernauer, V. Bertone, S. Bhattacharya, C. Bissolotti, D. Boer, M. Boglione, M. Bondí, P. Boora, I. Borsa, F. Bossu, G. Bozzi, J. Brandenburg, N. Brei, A. Bressan, W. Brooks, S. Bufalino, M. Bukhari, V. Burkert, N. Buttimore, A. Camsonne, A. Celentano, F. Celiberto, W. Chang, C. Chatterjee, K. Chen, T. Chetry, T. Chiarusi, Y. Chien, M. Chiosso, X. Chu, E. Chudakov, G. Cicala, E. Cisbani, I. Cloet, C. Cocuzza, P. Cole, D. Colella, J. Collins, M. Constantinou, M. Contalbrigo, G. Contin, R. Corliss, W. Cosyn, A. Courtoy, J. Crafts, R. Cruz-Torres, R. C. Cuevas, U. D’Alesio, S. Torre, D. Das, S. Dasgupta, C. D. Silva, W. Deconinck, M. Defurne, W. Degraw, K. Dehmelt, A. Dotto, F. Delcarro, A. Deshpande, W. Detmold, R. Vita, M. Diefenthaler, C. Dilks, D. Dixit, S. Dulat, A. Dumitru, R. Dupr'e, J. Durham, M. Echevarria, Lamiaa El Fassi, D. Elia, R. Ent, R. Esha, J. Ethier, O. Evdokimov, K. O. Eyser, C. Fanelli, R. Fatemi, S. Fazio, C. Fernández-Ramírez, M. Finger, M. Finger, D. Fitzgerald, C. Flore, T. Frederico, I. Frivsvci'c, S. Fucini, S. Furletov, Y. Furletova, C. Gal, L. Gamberg, H. Gao, P. Garg, D. Gaskell, K. Gates, M. Ducati, M. Gericke, G. G. Silveira, F. Girod, D. Glazier, K. Gnanvo, V. Gonçalves, L. Gonella, J. O. G. Hernandez, Y. Goto, F. Grancagnolo, L. Greiner, W. Guryn, V. Guzey, Y. Hatta, M. Hattawy, F. Hauenstein, X. He, T. Hemmick, O. Hen, G. Heyes, D. Higinbotham, A. H. Blin, T. Hobbs, M. Hohlmann, T. Horn, T. Hou, J. Huang, Q. Huang, G. Huber, C. Hyde, G. Iakovidis, Y. Ilieva, B. Jacak, P. Jacobs, M. Jadhav, Z. Janoška, A. Jentsch, T. Ježo, X. Jing, P. Jones, K. Joo, S. Joosten, V. Kafka, N. Kalantarians, G. Kalicy, D. Kang, Z. Kang, K. Kauder, S. Kay, C. Keppel, J. Kim, A. Kiselev, M. Klasen, S. Klein, H. Klest, O. Korchak, A. Kostina, P. Kotko, Y. Kovchegov, M. Krelina, S. Kuleshov, S. Kumano, K. Kumar, R. Kumar, Lokesh Kumar, K. Kumerivcki, A. Kusina, K. Kutak, Y. Lai, K. Lalwani, T. Lappi, J. Lauret, M. Lavinsky, D. Lawrence, D. Lednický, C. Lee, K. Lee, S. Lee, S. Levorato, H. Li, S. Li, W. Li, X. Li, W. Li, T. Ligonzo, H. Liu, M. Liu, X. Liu, S. Liuti, N. Liyanage, C. Lorc'e, Z. Lu, G. Lucero, N. Lukow, E. Lunghi, R. Majka, Y. Makris, I. Mandjavidze, S. Mantry, H. Mantysaari, F. Marhauser, P. Markowitz, L. Marsicano, A. Mastroserio, V. Mathieu, Y. Mehtar-Tani, W. Melnitchouk, L. Méndez, A. Metz, Z. Meziani, C. Mezrag, M. Mihovilovivc, R. Milner, M. Mirazita, H. Mkrtchyan, A. Mkrtchyan, V. Mochalov, V. Moiseev, M. Mondal, A. Morreale, D. Morrison, L. Motyka, H. Moutarde, C. Camacho, F. Murgia, M. Murray, P. Musico, P. Nadel-Turonski, P. Nadolsky, J. Nam, P. Newman, D. Neyret, D. Nguyen, E. Nocera, F. Noferini, F. Noto, A. S. Nunes, V. Okorokov, F. Olness, J. Osborn, B. Page, S. Park, A. Parker, K. Paschke, B. Pasquini, H. Paukkunen, S. Paul, C. Pecar, I. Pegg, C. Pellegrino, C. Peng, L. Pentchev, R. Perrino, F. Petriello, R. Petti, A. Pilloni, C. Pinkenburg, B. Pire, C. Pisano, D. Pitonyak, A. Poblaguev, T. Polakovic, M. Posik, M. Potekhin, R. Preghenella, S. Preins, A. Prokudin, P. Pujahari, M. Purschke, J. Pybus, M. Radici, R. Rajput-Ghoshal, P. Reimer, M. Rinaldi, F. Ringer, C. Roberts, S. Rodini, J. Rojo, D. Romanov, P. Rossi, E. Santopinto, M. Sarsour, R. Sassot, N. Sato, B. Schenke, W. Schmidke, I. Schmidt, A. Schmidt, B. Schmookler, G. Schnell, P. Schweitzer, J. Schwiening, I. Scimemi, S. Scopetta, J. Segovia, R. Seidl, S. Sekula, K. Semenov-Tian-Shanskiy, D. Shao, N. Sherrill, E. Sichtermann, M. Siddikov, A. Signori, B. Singh, S. vSirca, K. Slifer, W. Słomiński, D. Sokhan, W. Sondheim, Y. Song, O. Soto, H. Spiesberger, A. Staśto, P. Stepanov, G. Sterman, J. Stevens, I. Stewart, I. Strakovsky, M. Strikman, M. Sturm, M. Stutzman, M. Sullivan, B. Surrow, P. Svihra, S. Syritsyn, A. Szczepaniak, P. Sznajder, H. Szumila-Vance, L. Szymanowski, A. Tadepalli, J. Takaki, G. Tassielli, J. Terry, F. Tessarotto, K. Tezgin, L. Tomášek, F. Acosta, P. Tribedy, A. Tricoli, Triloki, S. Tripathi, R. Trotta, O. Tsai, Z. Tu, C. Tuvè, T. Ullrich, M. Ungaro, G. Urciuoli, A. Valentini, P. Vancura, M. Vandenbroucke, C. Hulse, G. Varner, R. Venugopalan, I. Vitev, A. Vladimirov, G. Volpe, A. Vossen, E. Voutier, J. Wagner, S. Wallon, H. Wang, Q. Wang, X. Wang, S. Wei, C. Weiss, T. Wenaus, H. Wennlof, N. Wickramaarachchi, A. Wikramanayake, D. Winney, C. Wong, C. Woody, L. Xia, B. Xiao, J. Xie, H. Xing, Q. Xu, J. Zhang, S. Zhang, Z. Zhang, Z. Zhao, Y. Zhao, L. Zheng, Y. Zhou, P. Zurita +413 moresemanticscholar +1 more sourceOverexpression of CDT1 inhibits cell cycle progression at S phase by interacting with the mini‐chromosome maintenance complex and causes DNA damage
FEBS Open Bio, EarlyView.CDT1 is an essential protein for DNA replication licensing that loads the MCM complex, the eukaryotic replicative DNA helicase, onto replication origins. Overexpression of CDT1 induces cell cycle arrest at the S phase. Here we showed CDT1 inhibits the progression of replication forks by interacting with the MCM complex, leading to the stalling and ...Takashi Tsuyama, Nonoka Takayama, Rina Tanaka, Yuuki Arai, Yohko Yamaguchi, Yuko Nawata, Yutaro Azuma, Shusuke Tada +7 morewiley +1 more sourceReview of IoT Systems for Air Quality Measurements Based on LTE/4G and LoRa Communications
IoTThe issue of air pollution has recently come to light due to rapid urbanization and population growth globally. Due to its impact on human health, such as causing lung and heart diseases, air quality monitoring is one of the main concerns.Mpho Gift Doctor Gololo, Clinton Wenfrey Nyathi, Lennox Boateng, Edward Khomotso Nkadimeng, Ryan Peter Mckenzie, Iqra Atif, Jude Kong, Muhammad Ahsan Mahboob, Ling Cheng, Bruce Mellado +9 moredoaj +1 more sourceSystemic T Cell Receptor Profiling Reveals Adaptive Immune Activation and Potential Immune Signatures of Diagnosis and Brain Atrophy in Epilepsy
Annals of Clinical and Translational Neurology, EarlyView.ABSTRACT Objective
Epilepsy is increasingly associated with immune dysregulation and inflammation. The T cell receptor (TCR), a key mediator of adaptive immunity, shows repertoire alterations in various immune‐mediated diseases. The unique TCR sequence serves as a molecular barcode for T cells, and clonal expansion accompanied by reduced overall TCR ...Yong‐Won Shin, Sang Bin Hong, Yong Woo Shin, Inpyeong Hwang, Jaeseong Oh, Jihyeon Choi, Narae Kim, Jangsup Moon, Keun‐Hwa Jung, Kyung‐Il Park, Ki‐Young Jung, Kon Chu, Sang Kun Lee +12 morewiley +1 more sourceHECATE
European Physical Journal C: Particles and Fields, 2021 The next generation of circular high energy collider is expected to be a lepton collider, FCC-ee at CERN or CEPC in China. However, the civil engineering concepts foresee to equip these colliders with bigger detector caverns than one would need for a ...Marcin Chrząszcz, Marco Drewes, Jan Hajer +2 moredoaj +1 more sourceData‐Driven Distributed Safe Control Design for Multi‐Agent Systems
International Journal of Adaptive Control and Signal Processing, EarlyView.This paper presents a data‐driven control barrier function (CBF) technique for ensuring safe control of multi‐agent systems (MASs) with uncertain linear dynamics. A data‐driven quadratic programming (QP) optimization is first developed for CBF‐based safe control of single‐agent systems using a nonlinear controller. This approach is then extended to the Marjan Khaledi, Bahare Kiumarsiwiley +1 more sourceMuon Collider Overview: Progress and Future Plans [PDF]
, 1998 Besides continued work on the parameters of a 3-4 and 0.5 TeV CoM collider,
many studies are now concentrating on a machine near 100 GeV that could be a
factory for the s-channel production of Higgs particles.Collaboration, Muon Collider, Gallardo, J., Palmer, R., Sessler, A., Tollestrup, A. +4 morecore +3 more sources
