Accelerator Neutrinos

Search for solar electron anti-neutrinos due to spin-flavor precession in the Sun with Super-Kamiokande-IV

Astroparticle Physics Elsevier 139 (2022) 102702

Authors:

K Abe, C Bronner, Y Hayato, M Ikeda, S Imaizumi, H Ito, J Kameda, Y Kataoka, M Miura, S Moriyama, Y Nagao, M Nakahata, Y Nakajima, S Nakayama, T Okada, K Okamoto, A Orii, G Pronost, H Sekiya, M Shiozawa, Y Sonoda, Y Suzuki, A Takeda, Y Takemoto, A Takenaka, H Tanaka, T Yano, R Akutsu, S Han, T Kajita, K Okumura, T Tashiro, R Wang, J Xia, D Bravo-Berguño, L Labarga, Ll Marti, B Zaldivar, FDM Blaszczyk, E Kearns, JL Raaf, JL Stone, L Wan, T Wester, BW Pointon, J Bian, NJ Griskevich, WR Kropp, S Locke, S Mine, MB Smy, HW Sobel, V Takhistov, P Weatherly, J Hill, JY Kim, IT Lim, RG Park, B Bodur, K Scholberg, CW Walter, L Bernard, A Coffani, O Drapier, S El Hedri, A Giampaolo, M Gonin, Th A Mueller, P Paganini, B Quilain, T Ishizuka, T Nakamura, JS Jang, JG Learned, LHV Anthony, AA Sztuc, Y Uchida, V Berardi, MG Catanesi, E Radicioni, NF Calabria, LN Machado, G De Rosa, G Collazuol, F Iacob, M Lamoureux, N Ospina, L Ludovici, Y Nishimura, S Cao, M Friend, T Hasegawa, T Ishida, M Jakkapu, T Kobayashi, T Matsubara, T Nakadaira, K Nakamura, Y Oyama, K Sakashita, T Sekiguchi, T Tsukamoto, Y Nakano, T Shiozawa, AT Suzuki, Y Takeuchi, S Yamamoto, A Ali, Y Ashida, J Feng, S Hirota, AK Ichikawa, T Kikawa, M Mori, T Nakaya, RA Wendell, Y Yasutome, P Fernandez, N McCauley, P Mehta, A Pritchard, KM Tsui, Y Fukuda, Y Itow, H Menjo, T Niwa, K Sato, M Tsukada, P Mijakowski, CK Jung, C Vilela, MJ Wilking, C Yanagisawa, M Harada, K Hagiwara, T Horai, H Ishino, S Ito, Y Koshio, W Ma, N Piplani, S Sakai, Y Kuno, G Barr, D Barrow, L Cook, A Goldsack, S Samani, C Simpson, D Wark, F Nova, T Boschi, F Di Lodovico, M Taani, J Migenda, S Molina Sedgwick, S Zsoldos, JY Yang, SJ Jenkins, M Malek, JM McElwee, O Stone, MD Thiesse, LF Thompson, H Okazawa, SB Kim, I Yu, K Nishijima, M Koshiba, K Iwamoto, N Ogawa, M Yokoyama, K Martens, MR Vagins, S Izumiyama, M Kuze, M Tanaka, T Yoshida, M Inomoto, M Ishitsuka, R Matsumoto, K Ohta, M Shinoki, JF Martin, HA Tanaka, T Towstego, M Hartz, A Konaka, P de Perio, NW Prouse, S Chen, BD Xu, B Richards, B Jamieson, J Walker, A Minamino, K Okamoto, G Pintaudi, R Sasaki, M Posiadala-Zezula, Super-Kamiokande Collaboration

Pre-Supernova Alert System for Super-Kamiokande

(2022)

Authors:

Super-Kamiokande Collaboration, :, LN Machado, K Abe, Y Hayato, K Hiraide, K Ieki, M Ikeda, J Kameda, Y Kanemura, R Kaneshima, Y Kashiwagi, Y Kataoka, S Miki, S Mine, M Miura, S Moriyama, Y Nakano, M Nakahata, S Nakayama, Y Noguchi, K Okamoto, K Sato, H Sekiya, H Shiba, K Shimizu, M Shiozawa, Y Sonoda, Y Suzuki, A Takeda, Y Takemoto, A Takenaka, H Tanaka, S Watanabe, T Yano, P de Perio, K Martens, MR Vagins, J Bian, NJ Griskevich, WR Kropp, S Locke, MB Smy, HW Sobel, V Takhistov, A Yankelevich, S Han, T Kajita, K Okumura, T Tashiro, T Tomiya, X Wang, J Xia, S Yoshida, GD Megias, P Fernandez, L Labarga, N Ospina, B Zaldivar, BW Pointon, R Akutsu, V Gousy-Leblanc, M Hartz, A Konaka, NW Prouse, E Kearns, JL Raaf, L Wan, T Wester, J Hill, JY Kim, IT Lim, RG Park, B Bodur, K Scholberg, CW Walter, L Bernard, A Coffani, O Drapier, S El Hedri, A Giampaolo, Th A Mueller, AD Santos, P Paganini, B Quilain, T Ishizuka, T Nakamura, JS Jang, JG Learned, S Cao, K Choi, LHV Anthony, D Martin, M Scott, AA Sztuc, Y Uchida, V Berardi, MG Catanesi, E Radicioni, NF Calabria, G De Rosa, G Collazuol, F Iacob, M Lamoureux, M Mattiazzi, L Ludovici, M Gonin, G Pronost, C Fujisawa, Y Maekawa, Y Nishimura, R Sasaki, M Friend, T Hasegawa, T Ishida, M Jakkapu, T Kobayashi, T Matsubara, T Nakadaira, K Nakamura, Y Oyama, K Sakashita, T Sekiguchi, T Tsukamoto, T Boschi, F Di Lodovico, J Gao, A Goldsack, T Katori, J Migenda, M Taani, S Zsoldos, Y Kotsar, H Ozaki, AT Suzuki, Y Takeuchi, S Yaamoto, C Bronner, J Feng, T Kikawa, M Mori, T Nakaya, RA Wendell, K Yasutome, SJ Jenkins, N McCauley, P Mehta, KM Tsui, Y Fukuda, Y Itow, H Menjo, K Ninomiya, J Lagoda, SM Lakshmi, M Mandal, P Mijakowski, YS Prabhu, J Zalipska, M Jia, J Jiang, CK Jung, MJ Wilking, C Yanagisawa, M Harada, H Ishino, S Ito, H Kitagawa, Y Koshio, W Ma, F Nakanishi, S Sakai, G Barr, D Barrow, L Cook, S Samani, D Wark, F Nova, JY Yang, M Malek, JM McElwee, O Stone, MD Thiesse, LF Thompson, H Okazawa, SB Kim, JW Seo, I Yu, AK Ichikawa, KD Nakamura, S Tairafune, K Nishijima, K Iwamoto, K Nakagiri, Y Nakajima, N Taniuchi, M Yokoyama, S Izumiyama, M Kuze, M Inomoto, M Ishitsuka, H Ito, T Kinoshita, R Matsumoto, Y Ommura, N Shigeta, M Shinoki, T Suganuma, M Yonenaga, JF Martin, HA Tanaka, T Towstego, S Chen, BD Xu, B Zhang, M Posiadala-Zezula, D Hadley, M Nicholson, M O'Flaherty, B Richards, A Ali, B Jamieson, Ll Marti, A Minamino, G Pintaudi, S Sano, S Suzuki, K Wada

Novel approach for evaluating detector-related uncertainties in a LArTPC using MicroBooNE data

European Physical Journal C Springer 82:5 (2022) 454

Authors:

P Abratenko, R An, J Anthony, G Barr, K Duffy, W Van De Pontseele

Abstract:

Primary challenges for current and future precision neutrino experiments using liquid argon time projection chambers (LArTPCs) include understanding detector effects and quantifying the associated systematic uncertainties. This paper presents a novel technique for assessing and propagating LArTPC detector-related systematic uncertainties. The technique makes modifications to simulation waveforms based on a parameterization of observed differences in ionization signals from the TPC between data and simulation, while remaining insensitive to the details of the detector model. The modifications are then used to quantify the systematic differences in low- and high-level reconstructed quantities. This approach could be applied to future LArTPC detectors, such as those used in SBN and DUNE.

Measurement of neutral current single $\pi^0$ production on argon with the MicroBooNE detector

(2022)

Authors:

MicroBooNE collaboration, P Abratenko, J Anthony, L Arellano, J Asaadi, A Ashkenazi, S Balasubramanian, B Baller, C Barnes, G Barr, J Barrow, V Basque, L Bathe-Peters, O Benevides Rodrigues, S Berkman, A Bhanderi, A Bhat, M Bhattacharya, M Bishai, A Blake, T Bolton, JY Book, L Camilleri, D Caratelli, I Caro Terrazas, F Cavanna, G Cerati, Y Chen, D Cianci, JM Conrad, M Convery, L Cooper-Troendle, JI Crespo-Anadon, M Del Tutto, SR Dennis, P Detje, A Devitt, R Diurba, R Dorrill, K Duffy, S Dytman, B Eberly, A Ereditato, JJ Evans, R Fine, OG Finnerud, GA Fiorentini Aguirre, RS Fitzpatrick, BT Fleming, N Foppiani, D Franco, AP Furmanski, D Garcia-Gamez, S Gardiner, G Ge, S Gollapinni, O Goodwin, E Gramellini, P Green, H Greenlee, W Gu, R Guenette, P Guzowski, L Hagaman, O Hen, R Hicks, C Hilgenberg, GA Horton-Smith, R Itay, C James, X Ji, L Jiang, JH Jo, RA Johnson, YJ Jwa, D Kalra, N Kamp, N Kaneshige, G Karagiorgi, W Ketchum, M Kirby, T Kobilarcik, I Kreslo, MB Leibovitch, I Lepetic, J-Y Li, K Li, Y Li, K Lin, BR Littlejohn, WC Louis, X Luo, K Manivannan, C Mariani, D Marsden, J Marshall, DA Martinez Caicedo, K Mason, A Mastbaum, N McConkey, V Meddage, T Mettler, K Miller, J Mills, K Mistry, T Mohayai, A Mogan, M Mooney, AF Moor, CD Moore, L Mora Lepin, J Mousseau, S Mulleria Babu, D Naples, A Navrer-Agasson, N Nayak, M Nebot-Guinot, RK Neely, DA Newmark, J Nowak, M Nunes, N Oza, O Palamara, V Paolone, A Papadopoulou, V Papavassiliou, H Parkinson, SF Pate, N Patel, A Paudel, Z Pavlovic, E Piasetzky, I Ponce-Pinto, S Prince, X Qian, JL Raaf, V Radeka, A Rafique, M Reggiani-Guzzo, L Ren, LCJ Rice, L Rochester, J Rodriguez Rondon, M Rosenberg, M Ross-Lonergan, C Rudolph von Rohr, G Scanavini, DW Schmitz, A Schukraft, W Seligman, MH Shaevitz, R Sharankova, J Shi, J Sinclair, A Smith, EL Snider, M Soderberg, S Soldner-Rembold, P Spentzouris, J Spitz, M Stancari, J St John, T Strauss, K Sutton, S Sword-Fehlberg, AM Szelc, W Tang, N Taniuchi, K Terao, C Thorpe, D Torbunov, D Totani, M Toups, Y-T Tsai, MA Uchida, T Usher, B Viren, M Weber, H Wei, AJ White, Z Williams, S Wolbers, T Wongjirad, M Wospakrik, K Wresilo, N Wright, W Wu, E Yandel, T Yang, G Yarbrough, LE Yates, HW Yu, GP Zeller, J Zennamo, C Zhang

Determination of the parton distribution functions of the proton using diverse ATLAS data from pp collisions at root √s =7, 8 and 13 TeV

European Physical Journal C Springer Nature 82:5 (2022) 438

Authors:

G Aad, B Abbott, Dc Abbott, A Abed Abud, K Abeling, Dk Abhayasinghe, Sh Abidi, A Aboulhorma, H Abramowicz, H Abreu, Y Abulaiti, Ac Abusleme Hoffman, Bs Acharya, B Achkar, L Adam, C Adam Bourdarios, L Adamczyk, L Adamek, Sv Addepalli, J Adelman, A Adiguzel, S Adorni, T Adye, Aa Affolder, Y Afik, C Agapopoulou, Mn Agaras, J Agarwala, A Aggarwal, C Agheorghiesei, Ja Aguilar-Saavedra, A Ahmad, F Ahmadov, Ws Ahmed, X Ai, G Aielli, I Aizenberg, M Akbiyik, Tpa Akesson, Av Akimov, K Al Khoury, Gl Alberghi, J Albert, P Albicocco, Mj Alconada Verzini, S Alderweireldt, M Aleksa, In Aleksandrov, C Alexa, T Alexopoulos

Abstract:

This paper presents an analysis at next-to-next-to-leading order in the theory of quantum chromodynamics for the determination of a new set of proton parton distribution functions using diverse measurements in pp collisions at √s =7, 8 and 13 TeV, performed by the ATLAS experiment at the Large Hadron Collider, together with deep inelastic scattering data from ep collisions at the HERA collider. The ATLAS data sets considered are differential cross-section measurements of inclusive W± and Z/ γ∗ boson production, W± and Z boson production in association with jets, tt¯ production, inclusive jet production and direct photon production. In the analysis, particular attention is paid to the correlation of systematic uncertainties within and between the various ATLAS data sets and to the impact of model, theoretical and parameterisation uncertainties. The resulting set of parton distribution functions is called ATLASpdf21.