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141por Liu, Dan, Liu, Zhixin, Zhang, JinE, Yin, Yinong, Xi, Jianfeng, Wang, Lichen, Xiong, JieFu, Zhang, Ming, Zhao, Tongyun, Jin, Jiaying, Hu, Fengxia, Sun, Jirong, Shen, Jun, Shen, Baogen“…The discovery and study of skyrmion materials play an important role in basic frontier physics research and future information technology. The database of 196 materials, including 64 skyrmions, was established and predicted based on machine learning. …”
Publicado 2023
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142por de Jonge, Niels“…The aim of the conference was to bring together an interdisciplinary group of scientists from the fields of biology, materials science, chemistry, and physics to discuss future directions of electron microscopy research. …”
Publicado 2015
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143
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144“…Following the 2013 update of the European Strategy for Particle Physics, the international Future Circular Collider (FCC) study has been launched by CERN as host institute, to design an energy frontier hadron collider (FCC-hh) in a new 80-100 km tunnel with a centre-of-mass energy of about 100 TeV, an order of magnitude above the LHC's, as a long-term goal. …”
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145por Boyle, Peter A., Chakraborty, Bipasha, Davies, Christine T.H., DeGrand, Thomas, DeTar, Carleton, Del Debbio, Luigi, El-Khadra, Aida X., Erben, Felix, Flynn, Jonathan M., Gámiz, Elvira, Giusti, Davide, Gottlieb, Steven, Hansen, Maxwell T., Heitger, Jochen, Hill, Ryan, Jay, William I., Jüttner, Andreas, Koponen, Jonna, Kronfeld, Andreas, Lehner, Christoph, Lytle, Andrew T., Martinelli, Guido, Meinel, Stefan, Monahan, Christopher J., Neil, Ethan T., Portelli, Antonin, Simone, James N., Simula, Silvano, Sommer, Rainer, Soni, Amarjit, Tsang, J. Tobias, Van de Water, Ruth S., Vaquero, Alejandro, Vittorio, Ludovico, Witzel, Oliver“…In this white paper for the Snowmass community planning process we highlight achievements and future avenues of research for lattice calculations of weak $b$ and $c$ quark decays, and point out how these calculations will help to address the anomalies currently in the spotlight of the particle physics community. With future increases in computational resources and algorithmic improvements, percent level (and below) lattice determinations will play a central role in constraining the standard model or identifying new physics.…”
Publicado 2022
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146“…Assuming 3-$\nu$ mixing, massive Majorana neutrinos and neutrinoless double-beta (\betabeta-) decay generated only by the (V-A) charged current weak interaction via the exchange of the three Majorana neutrinos, we briefly review the predictions for the effective Majorana mass $\meff$ in \betabeta-decay and reanalyse the physics potential of future \betabeta-decay experiments to provide information on the type of neutrino mass spectrum, the absolute scale of neutrino masses, and Majorana CP-violation in the lepton sector. …”
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147“…Seventy percent of respondents are currently involved in some educational or professional aspect of medical physics. Suggestions for future enhancements to better track and maintain contact with past fellows, expand funding sources, and potentially combine the programs are presented. …”
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148por Jacobsson, R“…Based on the current physics scene, the future holds more than ever a joint enterprise of precision measurements and direct searches. …”
Publicado 2013
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149por ELLIS, Jonathan R.“…He participated in the pioneering studies of possible physics with LEP, the LHC and CLIC and is now studying the physics possible with future large electron-positron and proton-proton particle accelerators. …”
Publicado 2014
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150“…In response to a request from the 2013 Update of the European Strategy for Particle Physics, the global Future Circular Collider (FCC) study is preparing the foundation for a next-generation large-scale accelerator infrastructure in the heart of Europe. …”
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151
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152
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153por Dawson, S, Gritsan, A, Logan, H, Qian, J, Tully, C, Van Kooten, R, Ajaib, A, Anastassov, A, Anderson, I, Bake, O, Barger, V, Barklow, T, Batell, B, Battaglia, M, Berge, S, Blondel, A, Bolognesi, S, Brau, J, Brownson, E, Cahill-Rowley, M, Calancha-Paredes, C, Chen, C -Y, Chou, W, Clare, R, Cline, D, Craig, N, Cranmer, K, de Gruttola, M, Elagin, A, Essig, R, Everett, L, Feng, E, Fujii, K, Gainer, J, Gao, Y, Gogoladze, I, Gori, S, Goncalo, R, Graf, N, Grojean, C, Guindon, S, Han, T, Hanson, G, Harnik, R, Heinemann, B, Heinemeyer, S, Heintz, U, Hewett, J, Ilchenko, Y, Ismail, A, Jain, V, Janot, P, Kawada, S, Kehoe, R, Klute, M, Kotwal, A, Krueger, K, Kukartsev, G, Kumar, K, Kunkle, J, Lewis, I, Li, Y, Linssen, L, Lipeles, E, Lipton, R, Liss, T, List, J, Liu, T, Liu, Z, Low, I, Ma, T, Mackenzie, P, Mellado, B, Melnikov, K, Moortgat-Pick, G, Mourou, G, Narain, M, Nielsen, J, Okada, N, Okawa, H, Olsen, J, Onyisi, P, Parashar, N, Peskin, M, Petriello, F, Plehn, T, Pollard, C, Potter, C, Prokofiev, K, Rauch, M, Rizzo, T, Robens, T, Rodriguez, V, Roloff, P, Ruiz, R, Sanz, V, Sayre, J, Shafi, Q, Shaughnessy, G, Sher, M, Simon, F, Solyak, N, Stupak, J, Su, S, Tanabe, T, Tajima, T, Telnov, V, Tian, J, Thomas, S, Thomson, M, Un, C, Velasco, M, Wagner, C, Wang, S, Whitbeck, A, Yao, W, Yokoya, H, Zenz, S, Zerwas, D, Zhang, Y, Zhou, Y“…We identify the key elements of a precision Higgs physics program and document the physics potential of future experimental facilities as elucidated during the Snowmass study. …”
Publicado 2013
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154“…While the central theme of the conference will be the physics of a future electron-ion collider, the workshop will also cover strongly-related physics in the CEBAF, RHIC, and LHC experimental programs. …”
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155
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156por Freitas, A., Kalinowski, J., Ananthanarayan, B., Bartl, A., Blair, G.A., Blochinger, C., Boos, E., Brandenburg, A., Datta, A., Djouadi, A., Fraas, H., Guasch, J., Hesselbach, S., Hidaka, K., Hollik, W., Kernreiter, T., Maniatis, M., von Manteuffel, A., Martyn, H.U., Miller, D.J., Moortgat-Pick, Gudrid A., Muhlleitner, M., Nauenberg, U., Kluge, Hannelies, Porod, W., Sola, J., Sopczak, A., Stahl, A., Weber, M.M., Zerwas, P.M.Enlace del recurso
Publicado 2002
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157por Blondel, A., Gluza, J., Jadach, S., Janot, P., Riemann, T., Akhundov, A., Arbuzov, A., Boels, R., Bondarenko, S., Borowka, S., Carloni Calame, C.M., Dubovyk, I., Dydyshka, Ya., Flieger, W., Freitas, A., Grzanka, K., Hahn, T., Huber, T., Kalinovskaya, L., Lee, R., Marquard, P., Montagna, G., Nicrosini, O., Papadopoulos, C.G., Piccinini, F., Pittau, R., Płaczek, W., Prausa, M., Riemann, S., Rodrigo, G., Sadykov, R., Skrzypek, M., Stöckinger, D., Usovitsch, J., Ward, B.F.L., Weinzierl, S., Yang, G., Yost, S.A.Enlace del recurso
Publicado 2019
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158
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159por Dainese, A., Wiedemann, U.A., Armesto, N., d'Enterria, D., Jowett, J.M., Lansberg, J.P., Milhano, J.G., Salgado, C.A., Schaumann, M., van Leeuwen, M., Albacete, J.L., Andronic, A., Antonioli, P., Apolinario, L., Bass, S., Beraudo, A., Bilandzic, A., Borsanyi, S., Braun-Munzinger, P., Chen, Z., Cunqueiro Mendez, L., Denicol, G.S., Eskola, K.J., Floerchinger, S., Fujii, H., Giubellino, P., Greiner, C., Grosse-Oetringhaus, J.F., Ko, C.M., Kotko, P., Krajczar, K., Kutak, K., Laine, M., Liu, Y., Lombardo, M.P., Luzum, M., Marquet, C., Masciocchi, S., Okorokov, V., Paquet, J.F., Paukkunen, H., Petreska, E., Pierog, T., Ploskon, M., Ratti, C., Rezaeian, A.H., Riegler, W., Rojo, J., Roland, C., Rossi, A., Salam, G.P., Sapeta, S., Schicker, R., Schmidt, C., Stachel, J., Uphoff, J., van Hameren, A., Watanabe, K., Xiao, B.W., Yuan, F., Zaslavsky, D., Zhou, K., Zhuang, P.Enlace del recurso
Publicado 2016
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160