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Bibliographische Detailangaben
Hauptverfasser: MicroBooNE collaboration, Abratenko, P., Aldana, D. Andrade, Arellano, L., Asaadi, J., Ashkenazi, A., Balasubramanian, S., Baller, B., Barnard, A., Barr, G., Barrow, D., Barrow, J., Basque, V., Bateman, J., Rodrigues, O. Benevides, Berkman, S., Bhat, A., Bhattacharya, M., Bishai, M., Blake, A., Bogart, B., Bolton, T., Brunetti, M. B., Camilleri, L., Caratelli, D., Cavanna, F., Cerati, G., Chappell, A., Chen, Y., Conrad, J. M., Convery, M., Cooper-Troendle, L., Crespo-Anadon, J. I., Cross, R., Del Tutto, M., Dennis, S. R., Detje, P., Diurba, R., Djurcic, Z., Duffy, K., Dytman, S., Eberly, B., Englezos, P., Ereditato, A., Evans, J. J., Fang, C., Fleming, B. T., Foreman, W., Franco, D., Furmanski, A. P., Gao, F., Garcia-Gamez, D., Gardiner, S., Ge, G., Gollapinni, S., Gramellini, E., Green, P., Greenlee, H., Gu, L., Gu, W., Guenette, R., Guzowski, P., Hagaman, L., Handley, M. D., Hen, O., Hilgenberg, C., Horton-Smith, G. A., Hussain, A., Irwin, B., Ismail, M. S., James, C., Ji, X., Jo, J. H., Johnson, R. A., Jwa, Y. J., Kalra, D., Karagiorgi, G., Ketchum, W., Kirby, M., Kobilarcik, T., Lane, N., Li, J. -Y., Li, Y., Lin, K., Littlejohn, B. R., Liu, L., Louis, W. C., Luo, X., Mahmud, T., Mariani, C., Marsden, D., Marshall, J., Martinez, N., Caicedo, D. A. Martinez, Martynenko, S., Mastbaum, A., Mawby, I., McConkey, N., Mellet, L., Mendez, J., Micallef, J., Mistry, K., Mohayai, T., Mogan, A., Mooney, M., Moor, A. F., Moore, C. D., Lepin, L. Mora, Moudgalya, M. M., Babu, S. Mulleria, Naples, D., Navrer-Agasson, A., Nayak, N., Nebot-Guinot, M., Nguyen, C., Nowak, J., Oza, N., Palamara, O., Pallat, N., Paolone, V., Papadopoulou, A., Papavassiliou, V., Parkinson, H., Pate, S. F., Patel, N., Pavlovic, Z., Piasetzky, E., Pletcher, K., Pophale, I., Qian, X., Raaf, J. L., Radeka, V., Rafique, A., Reggiani-Guzzo, M., Rondon, J. Rodriguez, Rosenberg, M., Ross-Lonergan, M., Safa, I., Schmitz, D. W., Schukraft, A., Seligman, W., Shaevitz, M. H., Sharankova, R., Shi, J., Snider, E. L., Soderberg, M., Soldner-Rembold, S., Spitz, J., Stancari, M., John, J. St., Strauss, T., Szelc, A. M., Taniuchi, N., Terao, K., Thorpe, C., Torbunov, D., Totani, D., Toups, M., Trettin, A., Tsai, Y. -T., Tyler, J., Uchida, M. A., Usher, T., Viren, B., Wang, J., Weber, M., Wei, H., White, A. J., Wolbers, S., Wongjirad, T., Wospakrik, M., Wresilo, K., Wu, W., Yandel, E., Yang, T., Yates, L. E., Yu, H. W., Zeller, G. P., Zennamo, J., Zhang, C.
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2412.14407
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author MicroBooNE collaboration
Abratenko, P.
Aldana, D. Andrade
Arellano, L.
Asaadi, J.
Ashkenazi, A.
Balasubramanian, S.
Baller, B.
Barnard, A.
Barr, G.
Barrow, D.
Barrow, J.
Basque, V.
Bateman, J.
Rodrigues, O. Benevides
Berkman, S.
Bhat, A.
Bhattacharya, M.
Bishai, M.
Blake, A.
Bogart, B.
Bolton, T.
Brunetti, M. B.
Camilleri, L.
Caratelli, D.
Cavanna, F.
Cerati, G.
Chappell, A.
Chen, Y.
Conrad, J. M.
Convery, M.
Cooper-Troendle, L.
Crespo-Anadon, J. I.
Cross, R.
Del Tutto, M.
Dennis, S. R.
Detje, P.
Diurba, R.
Djurcic, Z.
Duffy, K.
Dytman, S.
Eberly, B.
Englezos, P.
Ereditato, A.
Evans, J. J.
Fang, C.
Fleming, B. T.
Foreman, W.
Franco, D.
Furmanski, A. P.
Gao, F.
Garcia-Gamez, D.
Gardiner, S.
Ge, G.
Gollapinni, S.
Gramellini, E.
Green, P.
Greenlee, H.
Gu, L.
Gu, W.
Guenette, R.
Guzowski, P.
Hagaman, L.
Handley, M. D.
Hen, O.
Hilgenberg, C.
Horton-Smith, G. A.
Hussain, A.
Irwin, B.
Ismail, M. S.
James, C.
Ji, X.
Jo, J. H.
Johnson, R. A.
Jwa, Y. J.
Kalra, D.
Karagiorgi, G.
Ketchum, W.
Kirby, M.
Kobilarcik, T.
Lane, N.
Li, J. -Y.
Li, Y.
Lin, K.
Littlejohn, B. R.
Liu, L.
Louis, W. C.
Luo, X.
Mahmud, T.
Mariani, C.
Marsden, D.
Marshall, J.
Martinez, N.
Caicedo, D. A. Martinez
Martynenko, S.
Mastbaum, A.
Mawby, I.
McConkey, N.
Mellet, L.
Mendez, J.
Micallef, J.
Mistry, K.
Mohayai, T.
Mogan, A.
Mooney, M.
Moor, A. F.
Moore, C. D.
Lepin, L. Mora
Moudgalya, M. M.
Babu, S. Mulleria
Naples, D.
Navrer-Agasson, A.
Nayak, N.
Nebot-Guinot, M.
Nguyen, C.
Nowak, J.
Oza, N.
Palamara, O.
Pallat, N.
Paolone, V.
Papadopoulou, A.
Papavassiliou, V.
Parkinson, H.
Pate, S. F.
Patel, N.
Pavlovic, Z.
Piasetzky, E.
Pletcher, K.
Pophale, I.
Qian, X.
Raaf, J. L.
Radeka, V.
Rafique, A.
Reggiani-Guzzo, M.
Rondon, J. Rodriguez
Rosenberg, M.
Ross-Lonergan, M.
Safa, I.
Schmitz, D. W.
Schukraft, A.
Seligman, W.
Shaevitz, M. H.
Sharankova, R.
Shi, J.
Snider, E. L.
Soderberg, M.
Soldner-Rembold, S.
Spitz, J.
Stancari, M.
John, J. St.
Strauss, T.
Szelc, A. M.
Taniuchi, N.
Terao, K.
Thorpe, C.
Torbunov, D.
Totani, D.
Toups, M.
Trettin, A.
Tsai, Y. -T.
Tyler, J.
Uchida, M. A.
Usher, T.
Viren, B.
Wang, J.
Weber, M.
Wei, H.
White, A. J.
Wolbers, S.
Wongjirad, T.
Wospakrik, M.
Wresilo, K.
Wu, W.
Yandel, E.
Yang, T.
Yates, L. E.
Yu, H. W.
Zeller, G. P.
Zennamo, J.
Zhang, C.
author_facet MicroBooNE collaboration
Abratenko, P.
Aldana, D. Andrade
Arellano, L.
Asaadi, J.
Ashkenazi, A.
Balasubramanian, S.
Baller, B.
Barnard, A.
Barr, G.
Barrow, D.
Barrow, J.
Basque, V.
Bateman, J.
Rodrigues, O. Benevides
Berkman, S.
Bhat, A.
Bhattacharya, M.
Bishai, M.
Blake, A.
Bogart, B.
Bolton, T.
Brunetti, M. B.
Camilleri, L.
Caratelli, D.
Cavanna, F.
Cerati, G.
Chappell, A.
Chen, Y.
Conrad, J. M.
Convery, M.
Cooper-Troendle, L.
Crespo-Anadon, J. I.
Cross, R.
Del Tutto, M.
Dennis, S. R.
Detje, P.
Diurba, R.
Djurcic, Z.
Duffy, K.
Dytman, S.
Eberly, B.
Englezos, P.
Ereditato, A.
Evans, J. J.
Fang, C.
Fleming, B. T.
Foreman, W.
Franco, D.
Furmanski, A. P.
Gao, F.
Garcia-Gamez, D.
Gardiner, S.
Ge, G.
Gollapinni, S.
Gramellini, E.
Green, P.
Greenlee, H.
Gu, L.
Gu, W.
Guenette, R.
Guzowski, P.
Hagaman, L.
Handley, M. D.
Hen, O.
Hilgenberg, C.
Horton-Smith, G. A.
Hussain, A.
Irwin, B.
Ismail, M. S.
James, C.
Ji, X.
Jo, J. H.
Johnson, R. A.
Jwa, Y. J.
Kalra, D.
Karagiorgi, G.
Ketchum, W.
Kirby, M.
Kobilarcik, T.
Lane, N.
Li, J. -Y.
Li, Y.
Lin, K.
Littlejohn, B. R.
Liu, L.
Louis, W. C.
Luo, X.
Mahmud, T.
Mariani, C.
Marsden, D.
Marshall, J.
Martinez, N.
Caicedo, D. A. Martinez
Martynenko, S.
Mastbaum, A.
Mawby, I.
McConkey, N.
Mellet, L.
Mendez, J.
Micallef, J.
Mistry, K.
Mohayai, T.
Mogan, A.
Mooney, M.
Moor, A. F.
Moore, C. D.
Lepin, L. Mora
Moudgalya, M. M.
Babu, S. Mulleria
Naples, D.
Navrer-Agasson, A.
Nayak, N.
Nebot-Guinot, M.
Nguyen, C.
Nowak, J.
Oza, N.
Palamara, O.
Pallat, N.
Paolone, V.
Papadopoulou, A.
Papavassiliou, V.
Parkinson, H.
Pate, S. F.
Patel, N.
Pavlovic, Z.
Piasetzky, E.
Pletcher, K.
Pophale, I.
Qian, X.
Raaf, J. L.
Radeka, V.
Rafique, A.
Reggiani-Guzzo, M.
Rondon, J. Rodriguez
Rosenberg, M.
Ross-Lonergan, M.
Safa, I.
Schmitz, D. W.
Schukraft, A.
Seligman, W.
Shaevitz, M. H.
Sharankova, R.
Shi, J.
Snider, E. L.
Soderberg, M.
Soldner-Rembold, S.
Spitz, J.
Stancari, M.
John, J. St.
Strauss, T.
Szelc, A. M.
Taniuchi, N.
Terao, K.
Thorpe, C.
Torbunov, D.
Totani, D.
Toups, M.
Trettin, A.
Tsai, Y. -T.
Tyler, J.
Uchida, M. A.
Usher, T.
Viren, B.
Wang, J.
Weber, M.
Wei, H.
White, A. J.
Wolbers, S.
Wongjirad, T.
Wospakrik, M.
Wresilo, K.
Wu, W.
Yandel, E.
Yang, T.
Yates, L. E.
Yu, H. W.
Zeller, G. P.
Zennamo, J.
Zhang, C.
contents This Letter presents an investigation of low-energy electron-neutrino interactions in the Fermilab Booster Neutrino Beam by the MicroBooNE experiment, motivated by the excess of electron-neutrino-like events observed by the MiniBooNE experiment. This is the first measurement to use data from all five years of operation of the MicroBooNE experiment, corresponding to an exposure of $1.11\times 10^{21}$ protons on target, a $70\%$ increase on past results. Two samples of electron neutrino interactions without visible pions are used, one with visible protons and one without any visible protons. The MicroBooNE data show reasonable agreement with the nominal prediction, with $p$-values $\ge 26.7\%$ when the two $ν_e$ samples are combined, though the prediction exceeds the data in limited regions of phase space. The data is further compared to two empirical models that modify the predicted rate of electron-neutrino interactions in different variables in the simulation to match the unfolded MiniBooNE low energy excess. In the first model, this unfolding is performed as a function of electron neutrino energy, while the second model aims to match the observed shower energy and angle distributions of the MiniBooNE excess. This measurement excludes an electron-like interpretation of the MiniBooNE excess based on these models at $> 99\%$ CL$_\mathrm{s}$ in all kinematic variables.
format Preprint
id arxiv_https___arxiv_org_abs_2412_14407
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Search for an Anomalous Production of Charged-Current $ν_e$ Interactions Without Visible Pions Across Multiple Kinematic Observables in MicroBooNE
MicroBooNE collaboration
Abratenko, P.
Aldana, D. Andrade
Arellano, L.
Asaadi, J.
Ashkenazi, A.
Balasubramanian, S.
Baller, B.
Barnard, A.
Barr, G.
Barrow, D.
Barrow, J.
Basque, V.
Bateman, J.
Rodrigues, O. Benevides
Berkman, S.
Bhat, A.
Bhattacharya, M.
Bishai, M.
Blake, A.
Bogart, B.
Bolton, T.
Brunetti, M. B.
Camilleri, L.
Caratelli, D.
Cavanna, F.
Cerati, G.
Chappell, A.
Chen, Y.
Conrad, J. M.
Convery, M.
Cooper-Troendle, L.
Crespo-Anadon, J. I.
Cross, R.
Del Tutto, M.
Dennis, S. R.
Detje, P.
Diurba, R.
Djurcic, Z.
Duffy, K.
Dytman, S.
Eberly, B.
Englezos, P.
Ereditato, A.
Evans, J. J.
Fang, C.
Fleming, B. T.
Foreman, W.
Franco, D.
Furmanski, A. P.
Gao, F.
Garcia-Gamez, D.
Gardiner, S.
Ge, G.
Gollapinni, S.
Gramellini, E.
Green, P.
Greenlee, H.
Gu, L.
Gu, W.
Guenette, R.
Guzowski, P.
Hagaman, L.
Handley, M. D.
Hen, O.
Hilgenberg, C.
Horton-Smith, G. A.
Hussain, A.
Irwin, B.
Ismail, M. S.
James, C.
Ji, X.
Jo, J. H.
Johnson, R. A.
Jwa, Y. J.
Kalra, D.
Karagiorgi, G.
Ketchum, W.
Kirby, M.
Kobilarcik, T.
Lane, N.
Li, J. -Y.
Li, Y.
Lin, K.
Littlejohn, B. R.
Liu, L.
Louis, W. C.
Luo, X.
Mahmud, T.
Mariani, C.
Marsden, D.
Marshall, J.
Martinez, N.
Caicedo, D. A. Martinez
Martynenko, S.
Mastbaum, A.
Mawby, I.
McConkey, N.
Mellet, L.
Mendez, J.
Micallef, J.
Mistry, K.
Mohayai, T.
Mogan, A.
Mooney, M.
Moor, A. F.
Moore, C. D.
Lepin, L. Mora
Moudgalya, M. M.
Babu, S. Mulleria
Naples, D.
Navrer-Agasson, A.
Nayak, N.
Nebot-Guinot, M.
Nguyen, C.
Nowak, J.
Oza, N.
Palamara, O.
Pallat, N.
Paolone, V.
Papadopoulou, A.
Papavassiliou, V.
Parkinson, H.
Pate, S. F.
Patel, N.
Pavlovic, Z.
Piasetzky, E.
Pletcher, K.
Pophale, I.
Qian, X.
Raaf, J. L.
Radeka, V.
Rafique, A.
Reggiani-Guzzo, M.
Rondon, J. Rodriguez
Rosenberg, M.
Ross-Lonergan, M.
Safa, I.
Schmitz, D. W.
Schukraft, A.
Seligman, W.
Shaevitz, M. H.
Sharankova, R.
Shi, J.
Snider, E. L.
Soderberg, M.
Soldner-Rembold, S.
Spitz, J.
Stancari, M.
John, J. St.
Strauss, T.
Szelc, A. M.
Taniuchi, N.
Terao, K.
Thorpe, C.
Torbunov, D.
Totani, D.
Toups, M.
Trettin, A.
Tsai, Y. -T.
Tyler, J.
Uchida, M. A.
Usher, T.
Viren, B.
Wang, J.
Weber, M.
Wei, H.
White, A. J.
Wolbers, S.
Wongjirad, T.
Wospakrik, M.
Wresilo, K.
Wu, W.
Yandel, E.
Yang, T.
Yates, L. E.
Yu, H. W.
Zeller, G. P.
Zennamo, J.
Zhang, C.
High Energy Physics - Experiment
This Letter presents an investigation of low-energy electron-neutrino interactions in the Fermilab Booster Neutrino Beam by the MicroBooNE experiment, motivated by the excess of electron-neutrino-like events observed by the MiniBooNE experiment. This is the first measurement to use data from all five years of operation of the MicroBooNE experiment, corresponding to an exposure of $1.11\times 10^{21}$ protons on target, a $70\%$ increase on past results. Two samples of electron neutrino interactions without visible pions are used, one with visible protons and one without any visible protons. The MicroBooNE data show reasonable agreement with the nominal prediction, with $p$-values $\ge 26.7\%$ when the two $ν_e$ samples are combined, though the prediction exceeds the data in limited regions of phase space. The data is further compared to two empirical models that modify the predicted rate of electron-neutrino interactions in different variables in the simulation to match the unfolded MiniBooNE low energy excess. In the first model, this unfolding is performed as a function of electron neutrino energy, while the second model aims to match the observed shower energy and angle distributions of the MiniBooNE excess. This measurement excludes an electron-like interpretation of the MiniBooNE excess based on these models at $> 99\%$ CL$_\mathrm{s}$ in all kinematic variables.
title Search for an Anomalous Production of Charged-Current $ν_e$ Interactions Without Visible Pions Across Multiple Kinematic Observables in MicroBooNE
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2412.14407