Angular dependence of the atmospheric neutrino flux with IceCube data

IceCube Neutrino Observatory, the cubic kilometer detector embedded in ice of the geographic South Pole, is capable of detecting particles from several GeV up to PeV energies enabling precise neutrino spectrum measurement. The diffuse neutrino flux can be subdivided into three components: astrophysi...

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Main Authors: IceCube, Abbasi, Rasha, Ackermann, Markus, Adams, Jenni, Agarwalla, Sanjib, Aguilar, Juanan, Ahlers, Markus, Alameddine, Jean-Marco, Amin, Najia Moureen Binte, Andeen, Karen, Anton, Gisela, Argüelles, Carlos, Ashida, Yosuke, Athanasiadou, Sofia, Axani, Spencer, Bai, Xinhua, Balagopal V, Aswathi, Baricevic, Moreno, Barwick, Steve, Basu, Vedant, Bay, Ryan, Beatty, James, Becker Tjus, Julia, Beise, Jakob, Bellenghi, Chiara, Benning, Charlotte, BenZvi, Segev, Berley, David, Bernardini, Elisa, Besson, Dave, Blaufuss, Erik, Blot, Summer, Bontempo, Federico, Book, Julia, Boscolo Meneguolo, Caterina, Boser, Sebastian, Botner, Olga, Bottcher, Jakob, Bourbeau, Etienne, Braun, Jim, Brinson, Bennett, Brostean-Kaiser, Jannes, Burley, Ryan T., Busse, Raffaela, Butterfield, Delaney, Campana, Michael, Carloni, Kiara, Carnie-Bronca, Erin, Chattopadhyay, Sharmistha, Chau, Thien Nhan, Chen, Chujie, Chen, Zheyang, Chirkin, Dmitry, Choi, Seowon, Clark, Brian, Classen, Lew, Coleman, Alan, Collin, Gabriel, Connolly, Amy, Conrad, Janet, Coppin, Paul, Correa, Pablo, Cowen, Doug, Dave, Pranav, Clercq, Catherine De, DeLaunay, James, Delgado Lopez, Diyaselis, Deng, Shuyang, Deoskar, Kunal, Desai, Abhishek, Desiati, Paolo, Vries, Krijn De, Wasseige, Gwenhaël De, DeYoung, Tyce, Diaz, Alejandro, Diaz-Velez, Juan Carlos, Dittmer, Markus, Domi, Alba, Dujmovic, Hrvoje, DuVernois, Michael, Ehrhardt, Thomas, Eller, Philipp, Ellinger, Enrico, Mentawi, Sharif El, Elsässer, Dominik, Engel, Ralph, Erpenbeck, Hannah, Evans, John, Evenson, Paul, Fan, Kwok Lung, Fang, Ke, Farrag, Kareem Ramadan, Fazely, Ali, Fedynitch, Anatoli, Feigl, Nora, Fiedlschuster, Sebastian, Finley, Chad, Fischer, Leander, Fox, Derek B., Franckowiak, Anna, Fritz, Alexander, Furst, Philipp, Gallagher, Jay, Ganster, Erik, Garcia, Alfonso, Gerhardt, Lisa, Ghadimi, Ava, Glaser, Christian, Glauch, Theo, Glusenkamp, Thorsten, Goehlke, Noah, Gonzalez, Javier, Goswami, Sreetama, Grant, Darren, Gray, Shannon, Gries, Oliver, Griffin, Sean, Griswold, Spencer, Groth, Kathrine Morch, Günther, Christoph, Gutjahr, Pascal, Haack, Christian, Hallgren, Allan, Halliday, Robert, Halve, Lasse, Halzen, Francis, Hamdaoui, Hassane, Ha Minh, Martin, Hanson, Kael, Hardin, John, Harnisch, Alexander, Hatch, Patrick, Haungs, Andreas, Helbing, Klaus, Hellrung, Jonas, Henningsen, Felix, Heuermann, Lars Philipp, Heyer, Nils, Hickford, Stephanie, Hidvegi, Attila, Hill, Colton, Hill, Gary, Hoffman, Kara, Hori, Sam, Hoshina, Kotoyo, Hou, Wenjie, Huber, Thomas, Hultqvist, Klas, Hunnefeld, Mirco, Hussain, Raamis, Hymon, Karolin, In, Seongjin, Ishihara, Aya, Jacquart, Marc, Janik, Oliver, Jansson, Matti, Japaridze, George, Jeong, Minjin, Jin, Miaochen, Jones, Ben, Kang, Donghwa, Kang, Woosik, Kang, Xinyue, Kappes, Alexander, Kappesser, David, Kardum, Leonora, Karg, Timo, Karl, Martina, Karle, Albrecht, Katz, Ulì, Kauer, Matt, Kelley, John, Khatee Zathul, Arifa, Kheirandish, Ali, Kiryluk, Joanna, Klein, Spencer, Kochocki, Alina, Koirala, Ramesh, Kolanoski, Hermann, Kontrimas, Tomas, Kopke, Lutz, Kopper, Claudio, Koskinen, Jason, Koundal, Paras, Kovacevich, Michael, Kowalski, Marek, Kozynets, Tetiana, Jayakumar, Krishnamoorthi, Kruiswijk, Karlijn, Krupczak, Emmett, Kumar, Anil, Kun, Emma, Neilson, Naoko Kurahashi, Lad, Neha Navnitkumar, Lagunas Gualda, Cristina, Lamoureux, Mathieu, Larson, Michael J., Latseva, Silvia, Lauber, Frederik Hermann, Lazar, Jeffrey, Lee, Jiwoong, Leonard DeHolton, Kayla, Leszczynska, Agnieszka, Lincetto, Massimiliano, Liu, Qinrui, Liubarska, Maria, Lohfink, Elisa, Love, Christina, Lozano Mariscal, Cristian Jesus, Lu, Lu, Lucarelli, Francesco, Luszczak, William, Lyu, Yang, Madsen, Jim, Mahn, Kendall, Makino, Yuya, Manao, Elena, Mancina, Sarah, Marie Sainte, Wenceslas, Maris, Ioana Codrina, Marka, Szabolcs, Marka, Zsuzsa, Marsee, Matthew, Martinez-Soler, Ivan, Maruyama, Reina H., Mayhew, Finn, McElroy, Thomas, McNally, Frank, Mead, James Vincent, Meagher, Kevin, Mechbal, Sarah, Medina, Andres, Meier, Maximilian, Merckx, Yarno, Merten, Lukas, Micallef, Jessie, Mitchell, Justin, Montaruli, Teresa, Moore, Roger, Morii, Yasutsugu, Morse, Bob, Moulai, Marjon, Mukherjee, Tista, Naab, Richard, Nagai, Ryo, Nakos, Maxwell, Naumann, Uwe, Necker, Jannis, Negi, Akshima, Neumann, Miriam, Niederhausen, Hans, Nisa, Mehr, Noell, Andreas, Novikov, Alexander, Nowicki, Sarah, Pollmann, Anna, O'Dell, Vivian, Oehler, Marie, Oeyen, Bob, Olivas, Alex, Orsoe, Rasmus, Osborn, Jesse, O'Sullivan, Erin, Pandya, Hershal, Park, Nahee, Parker, Grant, Paudel, Ek Narayan, Paul, Larissa, Pérez de los Heros, Carlos, Peterson, Josh, Philippen, Saskia, Pizzuto, Alex, Plum, Matthias, Ponten, Axel, Popovych, Yuriy, Prado Rodriguez, Maria, Pries, Brandon, Procter-Murphy, Rachel, Przybylski, Gerald, Raab, Christoph, Rack-Helleis, John, Rawlins, Katherine, Rechav, Zoe, Rehman, Abdul, Reichherzer, Patrick, Renzi, Giovanni, Resconi, Elisa, Reusch, Simeon, Rhode, Wolfgang, Riedel, Benedikt, Rifaie, Adam, Roberts, Ella, Robertson, Sally, Rodan, Steven T., Roellinghoff, Gerrit, Rongen, Martin, Rott, Carsten, Ruhe, Tim, Ruohan, Li, Ryckbosch, Dirk, Safa, Ibrahim, Saffer, Julian, Salazar-Gallegos, Daniel, Sampathkumar, Pranav, Sanchez Herrera, Sebastian, Sandrock, Alexander, Santander, Marcos, Sarkar, Sourav, Sarkar, Subir, Savelberg, Joelle, Savina, Pierpaolo, Schaufel, Merlin, Schieler, Harald, Schindler, Sebastian, Schlickmann, Lea, Schlüter, Berit, Schlüter, Felix, Schmeisser, Nick, Schmidt, Torsten, Schneider, Judith, Schröder, Frank G., Schumacher, Lisa Johanna, Schwefer, Georg, Sclafani, Steve, Seckel, David, Seikh, Mohammad Ful Hossain, Seunarine, Suruj, Shah, Riya, Sharma, Ankur, Shefali, S., Shimizu, Nobuhiro, Silva, Manuel, Skrzypek, Barbara, Smithers, Ben, Snihur, Robert, Soedingrekso, Jan, Sogaard, Andreas, Soldin, Dennis, Soldin, Philipp, Sommani, Giacomo, Spannfellner, Christian, Spiczak, Glenn, Spiering, Christian, Stamatikos, Michael, Stanev, Todor, Stezelberger, Thorsten, Sturwald, Timo, Stuttard, Thomas, Sullivan, Greg, Taboada, Ignacio, Ter-Antonyan, Samvel, Thiesmeyer, Matthias, Thompson, Will, Thwaites, Jessie, Tilav, Serap, Tollefson, Kirsten, Tönnis, Christoph, Toscano, Simona, Tosi, Delia, Trettin, Alexander, Tung, Chun Fai, Turcotte, Roxanne, Twagirayezu, Jean Pierre, Ty, Bunheng, Unland Elorrieta, Martin, Upadhyay, Anuj Kumar, Upshaw, Karriem, Valtonen-Mattila, Nora, Vandenbroucke, Justin, Eijndhoven, Nick Van, Vannerom, David, Santen, Jakob Van, Vara, Javi, Veitch-Michaelis, Joshua, Venugopal, Megha, Vereecken, Matthias, Verpoest, Stef, Veske, Doğa, Vijai, Aishwarya, Walck, Christian, Weaver, Chris, Weigel, Philip, Weindl, Andreas, Weldert, Jan, Wendt, Chris, Werthebach, Johannes, Weyrauch, Mark, Whitehorn, Nathan, Wiebusch, Christopher, Willey, Nathan, Williams, Dawn, Witthaus, Lucas, Wolf, Annika, Wolf, Martin, Wrede, Gerrit, Xu, Xianwu, Yanez, Juan Pablo, Yildizci, Emre Burak, Yoshida, Shigeru, Young, Robert, Yu, Felix J., Yu, Shiqi, Yuan, Tianlu, Zhang, Zelong, Zhelnin, Pavel, Zimmerman, Melany
Format: Article in Journal/Newspaper
Language:English
Published: Scuola Internazionale Superiore di Studi Avanzati 2023
Subjects:
ddc:530
Physics
info:eu-repo/classification/ddc/530
South Pole
South pole
Online Access:https://publikationen.bibliothek.kit.edu/1000163397
https://publikationen.bibliothek.kit.edu/1000163397/151558122
https://doi.org/10.5445/IR/1000163397
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Summary:IceCube Neutrino Observatory, the cubic kilometer detector embedded in ice of the geographic South Pole, is capable of detecting particles from several GeV up to PeV energies enabling precise neutrino spectrum measurement. The diffuse neutrino flux can be subdivided into three components: astrophysical, from extraterrestrial sources; conventional, from pion and kaon decays in atmospheric Cosmic Ray cascades; and the yet undetected prompt component from the decay of charmed hadrons. A particular focus of this work is to test the predicted angular dependence of the atmospheric neutrino flux using an unfolding method. Unfolding is a set of methods aimed at determining a value from related quantities in a model-independent way, eliminating the influence of several assumptions made in the process. In this work, we unfold the muon neutrino energy spectrum and employ a novel technique for rebinning the observable space to ensure sufficient event numbers within the low statistic region at the highest energies. We present the unfolded energy and zenith angle spectrum reconstructed from IceCube data and compare the result with model expectations and previous measurements.

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