Zobrazeno 1 - 10
of 2 772
pro vyhledávání: '"Oksuzian"'
Autor:
Aguillard, D. P., Albahri, T., Allspach, D., Anisenkov, A., Badgley, K., Baeßler, S., Bailey, I., Bailey, L., Baranov, V. A., Barlas-Yucel, E., Barrett, T., Barzi, E., Bedeschi, F., Berz, M., Bhattacharya, M., Binney, H. P., Bloom, P., Bono, J., Bottalico, E., Bowcock, T., Braun, S., Bressler, M., Cantatore, G., Carey, R. M., Casey, B. C. K., Cauz, D., Chakraborty, R., Chapelain, A., Chappa, S., Charity, S., Chen, C., Cheng, M., Chislett, R., Chu, Z., Chupp, T. E., Claessens, C., Convery, M. E., Corrodi, S., Cotrozzi, L., Crnkovic, J. D., Dabagov, S., Debevec, P. T., Di Falco, S., Di Sciascio, G., Donati, S., Drendel, B., Driutti, A., Duginov, V. N., Eads, M., Edmonds, A., Esquivel, J., Farooq, M., Fatemi, R., Ferrari, C., Fertl, M., Fienberg, A. T., Fioretti, A., Flay, D., Foster, S. B., Friedsam, H., Froemming, N. S., Gabbanini, C., Gaines, I., Galati, M. D., Ganguly, S., Garcia, A., George, J., Gibbons, L. K., Gioiosa, A., Giovanetti, K. L., Girotti, P., Gohn, W., Goodenough, L., Gorringe, T., Grange, J., Grant, S., Gray, F., Haciomeroglu, S., Halewood-Leagas, T., Hampai, D., Han, F., Hempstead, J., Hertzog, D. W., Hesketh, G., Hess, E., Hibbert, A., Hodge, Z., Hong, K. W., Hong, R., Hu, T., Hu, Y., Iacovacci, M., Incagli, M., Kammel, P., Kargiantoulakis, M., Karuza, M., Kaspar, J., Kawall, D., Kelton, L., Keshavarzi, A., Kessler, D. S., Khaw, K. S., Khechadoorian, Z., Khomutov, N. V., Kiburg, B., Kiburg, M., Kim, O., Kinnaird, N., Kraegeloh, E., Krylov, V. A., Kuchinskiy, N. A., Labe, K. R., LaBounty, J., Lancaster, M., Lee, S., Li, B., Li, D., Li, L., Logashenko, I., Campos, A. Lorente, Lu, Z., Lucà, A., Lukicov, G., Lusiani, A., Lyon, A. L., MacCoy, B., Madrak, R., Makino, K., Mastroianni, S., Miller, J. P., Miozzi, S., Mitra, B., Morgan, J. P., Morse, W. M., Mott, J., Nath, A., Ng, J. K., Nguyen, H., Oksuzian, Y., Omarov, Z., Osofsky, R., Park, S., Pauletta, G., Piacentino, G. M., Pilato, R. N., Pitts, K. T., Plaster, B., Počanić, D., Pohlman, N., Polly, C. C., Price, J., Quinn, B., Qureshi, M. U. H., Ramachandran, S., Ramberg, E., Reimann, R., Roberts, B. L., Rubin, D. L., Sakurai, M., Santi, L., Schlesier, C., Schreckenberger, A., Semertzidis, Y. K., Shemyakin, D., Sorbara, M., Stapleton, J., Still, D., Stöckinger, D., Stoughton, C., Stratakis, D., Swanson, H. E., Sweetmore, G., Sweigart, D. A., Syphers, M. J., Tarazona, D. A., Teubner, T., Tewsley-Booth, A. E., Tishchenko, V., Tran, N. H., Turner, W., Valetov, E., Vasilkova, D., Venanzoni, G., Volnykh, V. P., Walton, T., Weisskopf, A., Welty-Rieger, L., Winter, P., Wu, Y., Yu, B., Yucel, M., Zeng, Y., Zhang, C.
We present details on a new measurement of the muon magnetic anomaly, $a_\mu = (g_\mu -2)/2$. The result is based on positive muon data taken at Fermilab's Muon Campus during the 2019 and 2020 accelerator runs. The measurement uses $3.1$ GeV$/c$ pola
Externí odkaz:
http://arxiv.org/abs/2402.15410
Autor:
Corrodi, S., Oksuzian, Y., Edmonds, A., Miller, J., Tran, H. N., Bonventre, R., Brown, D. N., Meot, F., Singh, V., Kolomensky, Y., Tripathy, S., Borrel, L., Bub, M., Echenard, B., Hitlin, D. G., Jafree, H., Middleton, S., Plestid, R., Porter, F. C., Zhu, R. Y., Bottura, L., Pinsard, E., Teixeira, A. M., Carelli, C., Ambrose, D., Badgley, K., Bautista, G. D., Bernstein, R. H., Boi, S., Crnkovic, J., Eldred, J., Gaponenko, A., Johnstone, C., Kiburg, B., Kutschke, R., Lynch, K., Mukherjee, A., Neuffer, D., Pellemoine, F., Pronskikh, V., Rakness, G., Tang, J., Tschirhart, R., Yucel, M., Zettlemoyer, J., Simons, B., Redigolo, D., Diociaiuti, E., Giovannella, S., Miscetti, S., Sarra, I., Muller, S. E., Ootani, W., Yucel, E. B., Kaplan, D. M., Phillips, T. J., Pasternak, J., Palo, D., Davydov, Y., Brown, D., Banerjee, S., Kawall, D., Hartwig, Z., Davidson, S., Abrams, R., Kampa, C., Mackenzie, M., Schmitt, M., Piot, P., Lee, Y. J., Morozov, V., Sato, A., Di Falco, S., Gioiosa, A., Morescalchi, L., Papa, A., Hedges, M. T., Renga, F., Lagrange, J. -B., Rogers, C., Wilcox, D., Petrov, A., Zhao, S., Dukes, E. C., Erlich, R., Group, C., Heeck, J., Pezzullo, G., Nguyen, T., Popp, J. L.
The Snowmass report on rare processes and precision measurements recommended Mu2e-II and a next generation muon facility at Fermilab (Advanced Muon Facility) as priorities for the frontier. The Workshop on a future muon program at FNAL was held in Ma
Externí odkaz:
http://arxiv.org/abs/2309.05933
Autor:
Aguillard, D. P., Albahri, T., Allspach, D., Anisenkov, A., Badgley, K., Baeßler, S., Bailey, I., Bailey, L., Baranov, V. A., Barlas-Yucel, E., Barrett, T., Barzi, E., Bedeschi, F., Berz, M., Bhattacharya, M., Binney, H. P., Bloom, P., Bono, J., Bottalico, E., Bowcock, T., Braun, S., Bressler, M., Cantatore, G., Carey, R. M., Casey, B. C. K., Cauz, D., Chakraborty, R., Chapelain, A., Chappa, S., Charity, S., Chen, C., Cheng, M., Chislett, R., Chu, Z., Chupp, T. E., Claessens, C., Convery, M. E., Corrodi, S., Cotrozzi, L., Crnkovic, J. D., Dabagov, S., Debevec, P. T., Di Falco, S., Di Sciascio, G., Drendel, B., Driutti, A., Duginov, V. N., Eads, M., Edmonds, A., Esquivel, J., Farooq, M., Fatemi, R., Ferrari, C., Fertl, M., Fienberg, A. T., Fioretti, A., Flay, D., Foster, S. B., Friedsam, H., Froemming, N. S., Gabbanini, C., Gaines, I., Galati, M. D., Ganguly, S., Garcia, A., George, J., Gibbons, L. K., Gioiosa, A., Giovanetti, K. L., Girotti, P., Gohn, W., Goodenough, L., Gorringe, T., Grange, J., Grant, S., Gray, F., Haciomeroglu, S., Halewood-Leagas, T., Hampai, D., Han, F., Hempstead, J., Hertzog, D. W., Hesketh, G., Hess, E., Hibbert, A., Hodge, Z., Hong, K. W., Hong, R., Hu, T., Hu, Y., Iacovacci, M., Incagli, M., Kammel, P., Kargiantoulakis, M., Karuza, M., Kaspar, J., Kawall, D., Kelton, L., Keshavarzi, A., Kessler, D. S., Khaw, K. S., Khechadoorian, Z., Khomutov, N. V., Kiburg, B., Kiburg, M., Kim, O., Kinnaird, N., Kraegeloh, E., Krylov, V. A., Kuchinskiy, N. A., Labe, K. R., LaBounty, J., Lancaster, M., Lee, S., Li, B., Li, D., Li, L., Logashenko, I., Campos, A. Lorente, Lu, Z., Lucà, A., Lukicov, G., Lusiani, A., Lyon, A. L., MacCoy, B., Madrak, R., Makino, K., Mastroianni, S., Miller, J. P., Miozzi, S., Mitra, B., Morgan, J. P., Morse, W. M., Mott, J., Nath, A., Ng, J. K., Nguyen, H., Oksuzian, Y., Omarov, Z., Osofsky, R., Park, S., Pauletta, G., Piacentino, G. M., Pilato, R. N., Pitts, K. T., Plaster, B., Počanić, D., Pohlman, N., Polly, C. C., Price, J., Quinn, B., Qureshi, M. U. H., Ramachandran, S., Ramberg, E., Reimann, R., Roberts, B. L., Rubin, D. L., Santi, L., Schlesier, C., Schreckenberger, A., Semertzidis, Y. K., Shemyakin, D., Sorbara, M., Stapleton, J., Still, D., Stöckinger, D., Stoughton, C., Stratakis, D., Swanson, H. E., Sweetmore, G., Sweigart, D. A., Syphers, M. J., Tarazona, D. A., Teubner, T., Tewsley-Booth, A. E., Tishchenko, V., Tran, N. H., Turner, W., Valetov, E., Vasilkova, D., Venanzoni, G., Volnykh, V. P., Walton, T., Weisskopf, A., Welty-Rieger, L., Winter, P., Wu, Y., Yu, B., Yucel, M., Zeng, Y., Zhang, C.
Publikováno v:
Phys. Rev. Lett. 131, 161802 (2023)
We present a new measurement of the positive muon magnetic anomaly, $a_\mu \equiv (g_\mu - 2)/2$, from the Fermilab Muon $g\!-\!2$ Experiment using data collected in 2019 and 2020. We have analyzed more than 4 times the number of positrons from muon
Externí odkaz:
http://arxiv.org/abs/2308.06230
The Cosmic-Ray Veto detector for the muon-to-electron conversion experiment at Fermilab consists of four plastic scintillating counter layers read out by silicon photo-multipliers through embedded wavelength-shifting fibers. In order to increase the
Externí odkaz:
http://arxiv.org/abs/2302.09172
Autor:
Black, K. M., Jindariani, S., Li, D., Maltoni, F., Meade, P., Stratakis, D., Acosta, D., Agarwal, R., Agashe, K., Aime, C., Ally, D., Apresyan, A., Apyan, A., Asadi, P., Athanasakos, D., Bao, Y., Barzi, E., Bartosik, N., Bauerdick, L. A. T., Beacham, J., Belomestnykh, S., Berg, J. S., Berryhill, J., Bertolin, A., Bhat, P. C., Biagini, M. E., Bloom, K., Bose, T., Bross, A., Brost, E., Bruhwiler, N., Buonincontri, L., Buttazzo, D., Candelise, V., Canepa, A., Carpenter, L., Casarsa, M., Celiberto, F., Cesarotti, C., Chachamis, G., Chacko, Z., Chang, P., Chekanov, S. V., Chen, T. Y., Chiesa, M., Cohen, T., Costa, M., Craig, N., Crivellin, A., Curatolo, C., Curtin, D., Da Molin, G., Dasu, S., de Gouvea, A., Denisov, D., Dermisek, R., Di Petrillo, K. F., Dorigo, T., Duarte, J. M., Elvira, V. D., Essig, R., Everaerts, P., Fan, J., Felcini, M., Fiore, G., Fiorina, D., Forslund, M., Franceschini, R., Garzelli, M. V., Gerber, C. E., Giambastiani, L., Giove, D., Guiducci, S., Han, T., Hermanek, K., Herwig, C., Hirschauer, J., Holmes, T. R., Homiller, S., Horyn, L. A., Ivanov, A., Jayatilaka, B., Jia, H., Jung, C. K., Kahn, Y., Kaplan, D. M., Kaur, M., Kawale, M., Koppenburg, P., Krintiras, G., Krizka, K., Kuchma, B., Lee, L., Li, L., Li, P., Li, Q., Li, W., Lipton, R., Liu, Z., Lomte, S., Lu, Q., Lucchesi, D., Luo, T., Lyu, K., Ma, Y., Machado, P. A. N., Madrid, C., Mahon, D. J., Mazzacane, A., McGinnis, N., McLean, C., Mele, B., Meloni, F., Middleton, S. C., Mishra, R. K., Mokhov, N., Montella, A., Morandin, M., Nagaitsev, S., Nardi, F., Neubauer, M. S., Neuffer, D. V., Newman, H., Ogaz, R., Ojalvo, I., Oksuzian, I., Orimoto, T., Ozek, B., Pachal, K., Griso, S. Pagan, Panci, P., Papadimitriou, V., Pastrone, N., Pedro, K., Pellemoine, F., Perloff, A., Pinna, D., Piccinini, F., Pleier, Marc-Andre, Posen, S., Potamianos, K., Rappoccio, S., Reece, M., Reina, L., Hall, A. Reinsvold, Riccardi, C., Ristori, L., Robens, T., Ruiz, R., Sala, P., Schulte, D., Sestini, L., Shiltsev, V., Snopok, P., Stark, G., Stupak III, J., Su, S ., Sundrum, R., Swiatlowski, M., Syphers, M. J., Taffard, A., Thompson, W., Torun, Y., Tully, C. G., Vai, I., Valente, M., van Rienen, U., van Weelderen, R., Velev, G., Venkatasubramanian, N., Vittorio, L., Vuosalo, C., Wang, X., Weber, H., Wu, R., Wu, Y., Wulzer, A., Xie, K., Xie, S., Yohay, R., Yonehara, K., Yu, F., Zlobin, A. V., Zuliani, D., Zurita, J.
A multi-TeV muon collider offers a spectacular opportunity in the direct exploration of the energy frontier. Offering a combination of unprecedented energy collisions in a comparatively clean leptonic environment, a high energy muon collider has the
Externí odkaz:
http://arxiv.org/abs/2209.01318
Autor:
Byrum, K., Corrodi, S., Oksuzian, Y., Winter, P., Xia, L., Edmonds, A. W. J., Miller, J. P., Mott, J., Marciano, W. J., Szafron, R., Bonventre, R., Brown, D. N., Kolomensky, Yu. G., Ning, O., Singh, V., Prebys, E., Borrel, L., Echenard, B., Hitlin, D. G., Hu, C., Lin, D. X., Middleton, S., Porter, F. C., Zhang, L., Zhu, R. -Y., Ambrose, D., Badgley, K., Bernstein, R. H., Boi, S., Casey, B. C. K., Culbertson, R., Gaponenko, A., Glass, H. D., Glenzinski, D., Goodenough, L., Hocker, A., Kargiantoulakis, M., Kashikhin, V., Kiburg, B., Kutschke, R. K., Murat, P. A., Neuffer, D., Pronskikh, V. S., Pushka, D., Rakness, G., Strauss, T., Yucel, M., Bloise, C., Diociaiuti, E., Giovannella, S., Happacher, F., Miscetti, S., Sarra, I., Martini, M., Ferrari, A., Müller, S. E., Rachamin, R., Barlas-Yucel, E., Artikov, A., Atanov, N., Davydov, Yu. I., Glagolev, V., Vasilyev, I. I., Uesaka, Y., Denisov, S. P., Evdokimov, V., Kozelov, A. V., Popov, A. V., Vasilyev, I. A., Tassielli, G., Teubner, T., Chislett, R. T., Hesketh, G. G., Lancaster, M., Campbell, M., Ciampa, K., Heller, K., Messerly, B., Cummings, M. A. C., Calibbi, L., Blazey, G. C., Syphers, M. J., Zutshi, V., Kampa, C., MacKenzie, M., Di Falco, S., Donati, S., Gioiosa, A., Giusti, V., Morescalchi, L., Pasciuto, D., Pedreschi, E., Spinella, F., Hedges, M. T., Jones, M., You, Z. Y., Zanetti, A. M., Valetov, E. V., Dukes, E. C., Ehrlich, R., Group, R. C., Heeck, J., Hung, P. Q., Demers, S. M., Pezzullo, G., Lynch, K. R., Popp, J. L.
An observation of Charged Lepton Flavor Violation (CLFV) would be unambiguous evidence for physics beyond the Standard Model. The Mu2e and COMET experiments, under construction, are designed to push the sensitivity to CLFV in the mu to e conversion p
Externí odkaz:
http://arxiv.org/abs/2203.07569
Autor:
Blazey, G., Colston, J., Dyshkant, A., Francis, K., Kalnins, J., Uzunyan, S. A., Zutshi, V., Hansen, S., Rubinov, P., Dukes, E. C., Oksuzian, Y., Pankuch, M.
Results of radiation tests of Hamamatsu 2.0 x 2.0~mm2 through-silicon-via (S13360-2050VE) multi-pixel photon counters, or MPPCs [1], are presented. Distinct sets of eight MPPCs were exposed to four different 1~MeV neutron equivalent doses of 200 MeV
Externí odkaz:
http://arxiv.org/abs/1906.07237
Autor:
Acero, M. A., Adamson, P., Aliaga, L., Alion, T., Allakhverdian, V., Anfimov, N., Antoshkin, A., Arrieta-Diaz, E., Aurisano, A., Back, A., Backhouse, C., Baird, M., Balashov, N., Baldi, P., Bambah, B. A., Basher, S., Bays, K., Behera, B., Bending, S., Bernstein, R., Bhatnagar, V., Bhuyan, B., Bian, J., Blair, J., Booth, A. C., Bolshakova, A., Bour, P., Bromberg, C., Buchanan, N., Butkevich, A., Campbell, M., Carroll, T. J., Catano-Mur, E., Childress, S., Choudhary, B. C., Chowdhury, B., Coan, T. E., Colo, M., Corwin, L., Cremonesi, L., Cronin-Hennessy, D., Davies, G. S., Derwent, P. F., Ding, P., Djurcic, Z., Doyle, D., Dukes, E. C., Dung, P., Duyang, H., Edayath, S., Ehrlich, R., Feldman, G. J., Flanagan, W., Frank, M. J., Gallagher, H. R., Gandrajula, R., Gao, F., Germani, S., Giri, A., Gomes, R. A., Goodman, M. C., Grichine, V., Groh, M., Group, R., Guo, B., Habig, A., Hakl, F., Hartnell, J., Hatcher, R., Hatzikoutelis, A., Heller, K., Himmel, A., Holin, A., Howard, B., Huang, J., Hylen, J., Jediny, F., Johnson, C., Judah, M., Kakorin, I., Kalra, D., Kaplan, D. M., Keloth, R., Klimov, O., Koerner, L. W., Kolupaeva, L., Kotelnikov, S., Kreymer, A., Kulenberg, Ch., Kumar, A., Kuruppu, C. D., Kus, V., Lackey, T., Lang, K., Lin, S., Lokajicek, M., Lozier, J., Luchuk, S., Maan, K., Magill, S., Mann, W. A., Marshak, M. L., Matveev, V., Méndez, D. P., Messier, M. D., Meyer, H., Miao, T., Miller, W. H., Mishra, S. R., Mislivec, A., Mohanta, R., Moren, A., Mualem, L., Muether, M., Mulder, K., Mufson, S., Murphy, R., Musser, J., Naples, D., Nayak, N., Nelson, J. K., Nichol, R., Niner, E., Norman, A., Nosek, T., Oksuzian, Y., Olshevskiy, A., Olson, T., Paley, J., Patterson, R. B., Pawloski, G., Pershey, D., Petrova, O., Petti, R., Plunkett, R. K., Potukuchi, B., Principato, C., Psihas, F., Raj, V., Radovic, A., Rameika, R. A., Rebel, B., Rojas, P., Ryabov, V., Sachdev, K., Samoylov, O., Sanchez, M. C., Seong, I. S., Shanahan, P., Sheshukov, A., Singh, P., Singh, V., Smith, E., Smolik, J., Snopok, P., Solomey, N., Song, E., Sousa, A., Soustruznik, K., Strait, M., Suter, L., Talaga, R. L., Tas, P., Thayyullathil, R. B., Thomas, J., Tiras, E., Torbunov, D., Tripathi, J., Tsaris, A., Torun, Y., Urheim, J., Vahle, P., Vasel, J., Vinton, L., Vokac, P., Vrba, T., Wang, B., Warburton, T. K., Wetstein, M., While, M., Whittington, D., Wojcicki, S. G., Wolcott, J., Yadav, N., Dombara, A. Yallappa, Yang, S., Yonehara, K., Yu, S., Zalesak, J., Zamorano, B., Zwaska, R.
Publikováno v:
Phys. Rev. D 102, 012004 (2020)
The cross section of neutrino-induced neutral-current coherent $\pi^0$ production on a carbon-dominated target is measured in the NOvA near detector. This measurement uses a narrow-band neutrino beam with an average neutrino energy of 2.7\,GeV, which
Externí odkaz:
http://arxiv.org/abs/1902.00558
Publikováno v:
Journal of Instrumentation, Volume 13, December 2018
The cosmic-ray-veto detector (CRV) for the Mu2e experiment consists of four layers of plastic scintillating counters read out by silicon photo-multipliers (SiPM) through wavelength-shifting fibers. This paper reports the light properties of several w
Externí odkaz:
http://arxiv.org/abs/1811.04874
Autor:
Acero, M. A., Adamson, P., Alion, L. Aliaga T., Allakhverdian, V., Antoshkin, N. Anfimov A., Arrieta-Diaz, E., Back, A. Aurisano A., Backhouse, C., Balashov, M. Baird N., Bambah, B. A., Behera, K. Bays B., Bending, S., Bhatnagar, R. Bernstein V., Bhuyan, B., Blackburn, J. Bian T., Blair, J., Bour, A. Bolshakova P., Bromberg, C., Buchanan, J. Brown N., Butkevich, A., Campbell, V. Bychkov M., Carroll, T. J., Cedeno, E. Catano-Mur A., Childress, S., Chowdhury, B. C. Choudhary B., Coan, T. E., Cooper, M. Colo J., Corwin, L., Cronin-Hennessy, L. Cremonesi D., Davies, G. S., De Rijck, J. P. Davies S., Derwent, P. F., Ding, R. Dharmapalan P., Djurcic, Z., Dung, E. C. Dukes P., Duyang, H., Ehrlich, S. Edayath R., Feldman, G. J., Gallagher, M. J. Frank H. R., Gandrajula, R., Germani, F. Gao S., Giri, A., Goodman, R. A. Gomes M. C., Grichine, V., Group, M. Groh R., Grover, D., Habig, B. Guo A., Hakl, F., Hatcher, J. Hartnell R., Hatzikoutelis, A., Himmel, K. Heller A., Holin, A., Huang, B. Howard J., Hylen, J., Judah, F. Jediny M., Kakorin, I., Kaplan, D. Kalra D. M., Keloth, R., Koerner, O. Klimov L. W., Kolupaeva, L., Kourbanis, S. Kotelnikov I., Kreymer, A., Kumar, Ch. Kulenberg A., Kuruppu, C., Lackey, V. Kus T., Lang, K., Lokajicek, S. Lin M., Lozier, J., Maan, S. Luchuk K., Magill, S., Marshak, W. A. Mann M. L., Matveev, V., Messier, D. P. Méndez M. D., Meyer, H., Miller, T. Miao W. H., Mishra, S. R., Mohanta, A. Mislivec R., Moren, A., Muether, L. Mualem M., Mufson, S., Musser, R. Murphy J., Naples, D., Nelson, N. Nayak J. K., Nichol, R., Norman, E. Niner A., Nosek, T., Olshevskiy, Y. Oksuzian A., Olson, T., Patterson, J. Paley R. B., Pawloski, G., Petrova, D. Pershey O., Petti, R., Plunkett, S. Phan-Budd R. K., Potukuchi, B., Psihas, C. Principato F., Radovic, A., Rebel, R. A. Rameika B., Rojas, P., Sachdev, V. Ryabov K., Samoylov, O., Sepulveda-Quiroz, M. C. Sanchez J., Shanahan, P., Singh, A. Sheshukov P., Singh, V., Smolik, E. Smith J., Snopok, P., Song, N. Solomey E., Sousa, A., Strait, K. Soustruznik M., Suter, L., Tas, R. L. Talaga P., Thayyullathil, R. B., Tiras, J. Thomas E., Tognini, S. C., Tripathi, D. Torbunov J., Tsaris, A., Urheim, Y. Torun J., Vahle, P., Vinton, J. Vasel L., Vokac, P., Vrba, A. Vold T., Wang, B., Wetstein, T. K. Warburton M., Whittington, D., Wolcott, S. G. Wojcicki J., Yang, S., Zalesak, S. Yu J., Zamorano, B., Zwaska, R.
Publikováno v:
Phys. Rev. D 98, 032012 (2018)
We present updated results from the NOvA experiment for $\nu_\mu\rightarrow\nu_\mu$ and $\nu_\mu\rightarrow\nu_e$ oscillations from an exposure of $8.85\times10^{20}$ protons on target, which represents an increase of 46% compared to our previous pub
Externí odkaz:
http://arxiv.org/abs/1806.00096