Results 61 to 70 of about 718,323 (298)
Search for Manifestations of New Physics in Fermion-Pair Production at
LEP [PDF]
, 2000 The measurements of hadron and lepton-pair production cross sections and
leptonic forward-backward asymmetries performed with the L3 detector at
centre-of-mass energies between 130 GeV and 189 GeV are used to search for new
physics phenomena such as ...A. Aloisio, A. Arefiev, A. Bajo, A. Balandras, A. Barczyk, A. Bay, A. Biland, A. Buffini, A. Buijs, A. Böhm, A. Chen, A. Csilling, A. De Salvo, A. Degré, A. Dominguez, A. Doria, A. Engler, A. Favara, A. Gurtu, A. Hasan, A. Hervé, A. Klimentov, A. Kopp, A. Krüger, A. Kunin, A. Lebedev, A. Malinin, A. Mihul, A. Nisati, A. Oulianov, A. Raspereza, A. Robohm, A. Rosca, A. Seganti, A. Shvorob, A. Stone, A. Straessner, A. Vorvolakos, A. Weber, A. Zichichi, A.A. Vorobyov, A.C. König, A.J.M. Muijs, A.M. Cartacci, Abe, Abe, Abreu, Acciarri, Acciarri, Acciarri, Acciarri, Acciarri, Acciarri, Acciarri, Acciarri, Adam, Adeva, Adloff, Adriani, An. Zalite, Antoniadis, Arkani-Hamed, Arkani-Hamed, B. Bertucci, B. Borgia, B. de la Cruz, B. Musicar, B. Petersen, B. Smith, B. Stoyanov, B. Tellili, B.L. Betev, B.N. Jin, B.P. Roe, B.Z. Yang, Barate, Barger, Bourilkov, Brock, Brodsky, C. Cecchi, C. Civinini, C. Dionisi, C. Furetta, C. Li, C. Luci, C. Maña, C. Palomares, C. Paus, C. Schäfer, C. Sciacca, C. Timmermans, C. Tully, C.G. Yang, C.H. Lin, Caso, Chemarin, D. Bourilkov, D. della Volpe, D. Duchesneau, D. Dufournaud, D. Haas, D. Hatzifotiadou, D. Kim, D. Kiss, D. Luckey, D. Mangeol, D. Pandoulas, D. Perret-Gallix, D. Piccolo, D. Prokofiev, D. Ren, D. Ruschmeier, D. Schmitz, D. Sciarrino, D. Son, D. van Dierendonck, D. Vicinanza, D.J. Schotanus, D.O. Prokofiev, D.P. Stickland, Dimopoulos, E. Delmeire, E. Fiandrini, E. Leonardi, E. Longo, E. Pistolesi, E. Sanchez, E. Shumilov, E. Valente, Eichten, Eidelmann, F. Anselmo, F. Becattini, F. Behner, F. Brochu, F. Cavallari, F. Cesaroni, F. Cindolo, F. Cotorobai, F. DeNotaristefani, F. Di Lodovico, F. Ferroni, F. Filthaut, F. Marzano, F. Nessi-Tedaldi, F. Pauss, F. Pierella, F.C. Erné, F.J. Eppling, F.L. Linde, G. Alemanni, G. Ambrosi, G. Cara Romeo, G. Carlino, G. Castellini, G. Chen, G. Chiefari, G. Coignet, G. Forconi, G. Grenier, G. Holzner, G. Landi, G. Marian, G. Mirabelli, G. Organtini, G. Passaleva, G. Rahal-Callot, G. Raven, G. Ruggiero, G. Schwering, G. Sultanov, G. Vesztergombi, G. Viertel, G. Zilizi, G.B. Mohanty, G.J. Bobbink, G.M. Chen, G.S. Muanza, G.Y. Zhu, H. Anderhub, H. El Mamouni, H. Fesefeldt, H. Hofer, H. Hoorani, H. Milcent, H. Newman, H. Nowak, H. Postema, H. Rykaczewski, H. Schopper, H. Suter, H. Vogel, H. Vogt, H. Wilkens, H.F. Chen, H.J. Lee, H.J. Yang, H.K. Park, H.S. Chen, I. Clare, I. Duran, I. Fisk, I. Iashvili, I. Josa-Mutuberrı́a, I. Laktineh, I. Vetlitsky, I. Vodopianov, I. Vorobiev, I.H. Park, J. Alcaraz, J. Allaby, J. Berdugo, J. Casaus, J. Fay, J. Hirschfelder, J. Kirkby, J. Mans, J. Mnich, J. Pothier, J. Quartieri, J. Rodin, J. Salicio, J. Tóth, J. Ulbricht, J. Yamamoto, J.A. Rubio, J.A. van Dalen, J.B. Ye, J.D. Burger, J.D. Swain, J.G. Branson, J.H. Field, J.J. Blaising, J.K. Kim, J.M. Le Goff, J.P. Martin, K. Deiters, K. Freudenreich, K. Lassila-Perini, K. Lübelsmeyer, K. Mazumdar, K. Riles, K. Sudhakar, K.L. Tung, Köpp, L. Baksay, L. Barone, L. Bellucci, L. Boldizsar, L. Cifarelli, L. Lista, L. Lugnier, L. Luminari, L. Malgeri, L. Merola, L. Romero, L. Servoli, L. Tauscher, L. Taylor, L. Xia, L.J. Gutay, L.W. Jones, L.Z. Sun, M. Acciarri, M. Aguilar-Benitez, M. Basile, M. Biasini, M. Bourquin, M. Campanelli, M. Capell, M. Cerrada, M. Chamizo, M. Chemarin, M. Diemoz, M. Dierckxsens, M. Dittmar, M. Fabre, M. Felcini, M. Gataullin, M. Guida, M. Kaur, M. Kräber, M. Lebeau, M. Maity, M. Meschini, M. Musy, M. Napolitano, M. Pauluzzi, M. Pedace, M. Pieri, M. Pohl, M. Rescigno, M. Steuer, M. Vivargent, M. von der Mey, M. Wadhwa, M. Wang, M. Weber, M. Yang, M. Zöller, M.A. Falagan, M.A. Rahaman, M.E. Sarakinos, M.G. Alviggi, M.N. Kienzle-Focacci, M.P. Sanders, M.T. Dova, M.W. Gruenewald, N. Cavallo, N. Colino, N. Gheordanescu, N. Raja, N. Shivarov, O. Adriani, O. Fedin, O. Grimm, P. Achard, P. Bagnaia, P. Bartalini, P. Berges, P. de Jong, P. Denes, P. Duinker, P. Déglon, P. Extermann, P. Garcia-Abia, P. Hidas, P. Ladron de Guevara, P. Le Coultre, P. Lebrun, P. Lecomte, P. Lecoq, P. Levtchenko, P. Marchesini, P. Molnar, P. Paolucci, P. Raics, P. Razis, P. Spillantini, P. Wienemann, P.A. Piroué, P.G. Rancoita, P.H. Fisher, R. Barillère, R. Battiston, R. Berbeco, R. Clare, R. D'Alessandro, R. de Asmundis, R. Faccini, R. Leiste, R. Paramatti, R. Ramelli, R. van Gulik, R.A. Khan, R.R. McNeil, R.W. Kraemer, R.Y. Zhu, S. Banerjee, S. Bhattacharya, S. Braccini, S. Costantini, S. Cucciarelli, S. Falciano, S. Gentile, S. Giagu, S. Likhoded, S. Mele, S. Paoletti, S. Patricelli, S. Pensotti, S. Reucroft, S. Riemann, S. Rosier-Lees, S. Saremi, S. Sarkar, S. Schmidt-Kaerst, S. Shevchenko, S. Villa, S. Vlachos, S. Wynhoff, S.C. Blyth, S.C. Tonwar, S.C. Yeh, S.M. Ting, S.N. Ganguli, S.R. Hou, S.S. Gau, S.V. Baldew, S.X. Wu, Samuel C.C. Ting, Sw. Banerjee, T. Angelescu, T. Azemoon, T. Aziz, T. Ferguson, T. Hebbeker, T. Moulik, T. Niessen, T. Paul, T. Siedenburg, T. Sztaricskai, T.S. Dai, U. Becker, U.K. Chaturvedi, V. Brigljevic, V. Koutsenko, V. Plyaskin, V. Pojidaev, V. Schegelsky, V. Shoutko, V.K. Gupta, V.P. Andreev, W. Kittel, W. Krenz, W. Lohmann, W. Lustermann, W. Wallraff, W.G. Ma, W.J. Burger, W.J. Metzger, W.T. Lin, X.D. Cai, X.L. Wang, X.W. Tang, Y. Hu, Y. Uchida, Y.H. Chang, Y.S. Lu, Yu. Galaktionov, Yu. Zalite, Z. Szillasi, Z.A. Liu, Z.F. Gong, Z.M. Wang, Z.P. Zhang, Z.Z. Xu +437 morecore +5 more sourcesToward Scalable Solutions for Silver‐Based Gas Diffusion Electrode Fabrication for the Electrochemical Conversion of CO2 – A Perspective
Advanced Functional Materials, EarlyView.In this study, the preparation techniques for silver‐based gas diffusion electrodes used for the electrochemical reduction of carbon dioxide (eCO2R) are systematically reviewed and compared with respect to their scalability. In addition, physics‐based and data‐driven modeling approaches are discussed, and a perspective is given on how modeling can aid ...Simon Emken, K. Ashoke Raman, Alexander Bauer, Violeta Karyofylli, Eva Jodat, André Karl, Rüdiger‐A. Eichel +6 morewiley +1 more sourceWeNMR : the tale of virtual research community in NMR and structural biology [PDF]
, 2013 Structural biology and life sciences in general, and NMR in particular, have always been associated with advanced computing. The current challenges in the post-genomic era call for virtual research platforms that provide the worldwide research community ...Bonvin, Alexandre, Laue, Ernest, Rosato, Antonio, Schwalbe, Harald, Spronk, Chris, Svergun, Dmitri, Verlato, Marco, Vriend, Gert, Vuister, Geerten +8 morecore Deeply Virtual Neutrino Scattering (DVNS)
, 2004 We introduce the study of neutrino scattering off protons in the deeply
virtual kinematics, which describes under a unified formalism elastic and deep
inelastic neutrino scattering.A. Freund, A.V. Radyushkin, A.V. Radyushkin, C Coriano, C. Corianò, E.A. Paschos, I.V. Musatov, J.C. Collins, J.W.F. Valle, K.J. Golec-Biernat, L. Mankiewicz, L. Mankiewicz, L.L. Frankfurt, M guzzi, M. Gluck, M. Vanderhaeghen, M.L. Mangano ., M.V. Diwan ., MINOS collaboration, P Amore, S. Pakvasa, W. Marciano, W.T. Weng ., X. Ji, X.-D. Ji +24 morecore +1 more sourceBeyond the Edge: Charge‐Transfer Excitons in Organic Donor‐Acceptor Cocrystals
Advanced Functional Materials, EarlyView.Complex excitonic landscapes in acene–perfluoroacene cocrystals are unveiled by polarization‐resolved optical spectroscopy and many‐body theory. This systematic study of a prototypical model system for weakly interacting donor–acceptor compounds challenges common views of charge‐transfer excitons, providing a refined conceptual framework for ...Sebastian Anhäuser, Ana M. Valencia, Sergei I. Ivlev, Marc Zeplichal, Andreas Terfort, Caterina Cocchi, Gregor Witte +6 morewiley +1 more source
