Reconstruction of Neutrino Events in IceCube using Graph Neural Networks

The IceCube Neutrino Observatory is a cubic-kilometer scale neutrino detector embedded in the Antarctic ice of the South Pole. In the near future, the detector will be augmented by extensions, such as the IceCube Upgrade and the planned Gen2 detector. The sparseness of observed light in the detector...

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Main Authors: Ha Minh M., Abbasi R., Ackermann M., Adams J., Aguilar J. A., Ahlers M., Ahrens M., Alispach C., Alves A. A., Amin N. M., An R., Andeen K., Anderson T., Anton G., Arguelles C., Ashida Y., Axani S., Bai X., Balagopal A. V., Barbano A., Barwick S. W., Bastian B., Basu V., Baur S., Bay R., Beatty J. J., Becker K. -H., Becker Tjus J., Bellenghi C., BenZvi S., Berley D., Bernardini E., Besson D. Z., Binder G., Bindig D., Blaufuss E., Blot S., Boddenberg M., Bontempo F., Borowka J., Boser S., Botner O., Bottcher J., Bourbeau E., Bradascio F., Braun J., Bron S., Brostean-Kaiser J., Browne S., Burgman A., Burley R. T., Busse R. S., Campana M. A., Carnie-Bronca E. G., Chen C., Chirkin D., Choi K., Clark B. A., Clark K., Classen L., Coleman A., Collin G. H., Conrad J. M., Coppin P., Correa P., Cowen D. F., Cross R., Dappen C., Dave P., De Clercq C., DeLaunay J. J., Dembinski H., Deoskar K., De Ridder S., Desai A., Desiati P., de Vries K. D., de Wasseige G., de With M., DeYoung T., Dharani S., Diaz A., Diaz-Velez J. C., Dittmer M., Dujmovic H., Dunkman M., DuVernois M. A., Dvorak E., Ehrhardt T., Eller P., Engel R., Erpenbeck H., Evans J., Evenson P. A., Fan K. L., Fazely A. R., Fiedlschuster S., Fienberg A. T., Filimonov K., Finley C., Fischer L., Fox D., Franckowiak A., Friedman E., Fritz A., Furst P., Gaisser T. K., Gallagher J., Ganster E., Garcia A., Garrappa S., Gerhardt L., Ghadimi A., Glaser C., Glauch T., Glusenkamp T., Goldschmidt A., Gonzalez J. G., Goswami S., Grant D., Gregoire T., Griswold S., Gunduz M., Gunther C., Haack C., Hallgren A., Halliday R., Halve L., Halzen F., Hanson K., Hardin J., Harnisch A. A., Haungs A., Hauser S., Hebecker D., Helbing K., Henningsen F., Hettinger E. C., Hickford S., Hignight J., Hill C., Hill G. C., Hoffman K. D., Hoffmann R., Hoinka T., Hokanson-Fasig B., Hoshina K., Huang F., Huber M., Huber T., Hultqvist K., Hunnefeld M., Hussain R., In S., Iovine N., Ishihara A., Jansson M., Japaridze G. S., Jeong M., Jones B. J. P., Kang D., Kang W., Kang X., Kappes A., Kappesser D., Karg T., Karl M., Karle A., Katz U., Kauer M., Kellermann M., Kelley J. L., Kheirandish A., Kin K., Kintscher T., Kiryluk J., Klein S. R., Koirala R., Kolanoski H., Kontrimas T., Kopke L., Kopper C., Kopper S., Koskinen D. J., Koundal P., Kovacevich M., Kowalski M., Kozynets T., Kun E., Kurahashi N., Lad N., Lagunas Gualda C., Lanfranchi J. L., Larson M. J., Lauber F., Lazar J. P., Lee J. W., Leonard K., Leszczynska A., Li Y., Lincetto M., Liu Q. R., Liubarska M., Lohfink E., Lozano Mariscal C. J., Lu L., Lucarelli F., Ludwig A., Luszczak W., Lyu Y., Ma W. Y., Madsen J., Mahn K. B. M., Makino Y., Mancina S., Maris I. C., Maruyama R., Mase K., McElroy T., McNally F., Mead J. V., Meagher K., Medina A., Meier M., Meighen-Berger S., Micallef J., Mockler D., Montaruli T., Moore R. W., Morse R., Moulai M., Naab R., Nagai R., Naumann U., Necker J., Nguyen L. V., Niederhausen H., Nisa M. U., Nowicki S. C., Nygren D. R., Obertacke Pollmann A., Oehler M., Olivas A., O'Sullivan E., Pandya H., Pankova D. V., Park N., Parker G. K., Paudel E. N., Paul L., Perez de los Heros C., Peters L., Peterson J., Philippen S., Pieloth D., Pieper S., Pittermann M., Pizzuto A., Plum M., Popovych Y., Porcelli A., Prado Rodriguez M., Price P. B., Pries B., Przybylski G. T., Raab C., Raissi A., Rameez M., Rawlins K., Rea I. C., Rehman A., Reichherzer P., Reimann R., Renzi G., Resconi E., Reusch S., Rhode W., Richman M., Riedel B., Roberts E. J., Robertson S., Roellinghoff G., Rongen M., Rott C., Ruhe T., Ryckbosch D., Rysewyk Cantu D., Safa I., Saffer J., Sanchez Herrera S. E., Sandrock A., Sandroos J., Santander M., Sarkar S., Satalecka K., Scharf M., Schaufel M., Schieler H., Schindler S., Schlunder P., Schmidt T., Schneider A., Schneider J., Schroder F. G., Schumacher L., Schwefer G., Sclafani S., Seckel D., Seunarine S., Sharma A., Shefali S., Silva M., Skrzypek B., Smithers B., Snihur R., Soedingrekso J., Soldin D., Spannfellner C., Spiczak G. M., Spiering C., Stachurska J., Stamatikos M., Stanev T., Stein R., Stettner J., Steuer A., Stezelberger T., Sturwald T., Stuttard T., Sullivan G. W., Taboada I., Tenholt F., Ter-Antonyan S., Tilav S., Tischbein F., Tollefson K., Tomankova L., Tonnis C., Toscano S., Tosi D., Trettin A., Tselengidou M., Tung C. F., Turcati A., Turcotte R., Turley C. F., Twagirayezu J. P., Ty B., Unland Elorrieta M. A., Valtonen-Mattila N., Vandenbroucke J., van Eijndhoven N., Vannerom D., van Santen J., Verpoest S., Vraeghe M., Walck C., Watson T. B., Weaver C., Weigel P., Weindl A., Weiss M. J., Weldert J., Wendt C., Werthebach J., Weyrauch M., Whitehorn N., Wiebusch C. H., Williams D. R., Wolf M., Woschnagg K., Wrede G., Wulff J., Xu X. W., Xu Y., Yanez J. P., Yoshida S., Yu S., Yuan T., Zhang Z.
Other Authors: Ha Minh, M., Abbasi, R., Ackermann, M., Adams, J., Aguilar, J. A., Ahlers, M., Ahrens, M., Alispach, C., Alves, A. A., Amin, N. M., An, R., Andeen, K., Anderson, T., Anton, G., Arguelles, C., Ashida, Y., Axani, S., Bai, X., Balagopal, A. V., Barbano, A., Barwick, S. W., Bastian, B., Basu, V., Baur, S., Bay, R., Beatty, J. J., Becker, K. -H., Becker Tjus, J., Bellenghi, C., Benzvi, S., Berley, D., Bernardini, E., Besson, D. Z., Binder, G., Bindig, D., Blaufuss, E., Blot, S., Boddenberg, M., Bontempo, F., Borowka, J., Boser, S., Botner, O., Bottcher, J., Bourbeau, E., Bradascio, F., Braun, J., Bron, S., Brostean-Kaiser, J., Browne, S., Burgman, A.
Format: Conference Object
Language:English
Published: Sissa Medialab Srl 2022
Subjects:
Antarctic
South Pole
The Antarctic
Antarc*
South pole
Online Access:https://hdl.handle.net/11577/3468106
Description
Summary:The IceCube Neutrino Observatory is a cubic-kilometer scale neutrino detector embedded in the Antarctic ice of the South Pole. In the near future, the detector will be augmented by extensions, such as the IceCube Upgrade and the planned Gen2 detector. The sparseness of observed light in the detector for low-energy events, and the irregular detector geometry, have always been a challenge to the reconstruction of the detected neutrinos’ parameters of interest. This challenge remains with the IceCube Upgrade, currently under construction, which introduces seven new detector strings with novel detector modules. The Upgrade modules will increase the detection rate of low-energy events and allow us to further constrain neutrino oscillation physics. However, the geometry of these modules render existing traditional reconstruction algorithms more difficult to use. We introduce a new reconstruction algorithm based on Graph Neural Networks, which we use to reconstruct neutrino events at much faster processing times than the traditional algorithms, while providing comparable resolution. We show that our algorithm is applicable not only to reconstructing data of the current IceCube detector, but also simulated events for next-generation extensions, such as the IceCube Upgrade.

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