학술논문
Advancing the Landscape of Multimessenger Science in the Next Decade
Document Type
Working Paper
Author
Engel, Kristi; Lewis, Tiffany; Muzio, Marco Stein; Venters, Tonia M.; Ahlers, Markus; Albert, Andrea; Allen, Alice; Solares, Hugo Alberto Ayala; Anandagoda, Samalka; Andersen, Thomas; Antier, Sarah; Alvarez-Castillo, David; Bar, Olaf; Beznosko, Dmitri; Bibrzyck, Łukasz; Brazier, Adam; Brisbois, Chad; Brose, Robert; Brown, Duncan A.; Bulla, Mattia; Burgess, J. Michael; Burns, Eric; Chirenti, Cecilia; Ciprini, Stefano; Clay, Roger; Coughlin, Michael W.; Cummings, Austin; D'Elia, Valerio; Dai, Shi; Dietrich, Tim; Di Lalla, Niccolò; Dingus, Brenda; Durocher, Mora; Eser, Johannes; Filipović, Miroslav D.; Fleischhack, Henrike; Foucart, Francois; Frontczak, Michał; Fryer, Christopher L.; Gamble, Ronald S.; Gasparrini, Dario; Giardino, Marco; Goodman, Jordan; Harding, J. Patrick; Hare, Jeremy; Holley-Bockelmann, Kelly; Homola, Piotr; Hughes, Kaeli A.; Humensky, Brian; Inoue, Yoshiyuki; Jaffe, Tess; Kargaltsev, Oleg; Kierans, Carolyn; Kneller, James P.; Leto, Cristina; Lucarelli, Fabrizio; Martínez-Huerta, Humberto; Maselli, Alessandro; Meli, Athina; Meyers, Patrick; Mueller, Guido; Nasipak, Zachary; Negro, Michela; Niedźwiecki, Michał; Noble, Scott C.; Omodei, Nicola; Oslowski, Stefan; Perri, Matteo; Piekarczyk, Marcin; Pittori, Carlotta; Polenta, Gianluca; Prechelt, Remy L.; Principe, Giacomo; Racusin, Judith; Rzecki, Krzysztof; Sambruna, Rita M.; Schlieder, Joshua E.; Shoemaker, David; Smale, Alan; Sośnicki, Tomasz; Stein, Robert; Stuglik, Sławomir; Teuben, Peter; Thorpe, James Ira; Verbiest, Joris P.; Verrecchia, Franceso; Vitale, Salvatore; Wadiasingh, Zorawar; Wibig, Tadeusz; Willox, Elijah; Wilson-Hodge, Colleen A.; Wood, Joshua; Yang, Hui; Zhang, Haocheng
Source
Subject
Language
Abstract
The last decade has brought about a profound transformation in multimessenger science. Ten years ago, facilities had been built or were under construction that would eventually discover the nature of objects in our universe could be detected through multiple messengers. Nonetheless, multimessenger science was hardly more than a dream. The rewards for our foresight were finally realized through IceCube's discovery of the diffuse astrophysical neutrino flux, the first observation of gravitational waves by LIGO, and the first joint detections in gravitational waves and photons and in neutrinos and photons. Today we live in the dawn of the multimessenger era. The successes of the multimessenger campaigns of the last decade have pushed multimessenger science to the forefront of priority science areas in both the particle physics and the astrophysics communities. Multimessenger science provides new methods of testing fundamental theories about the nature of matter and energy, particularly in conditions that are not reproducible on Earth. This white paper will present the science and facilities that will provide opportunities for the particle physics community renew its commitment and maintain its leadership in multimessenger science.
Comment: 174 pages, 12 figures. Contribution to Snowmass 2021. Solicited white paper from CF07. Comments and endorsers welcome. Still accepting contributions (contact editors)
Comment: 174 pages, 12 figures. Contribution to Snowmass 2021. Solicited white paper from CF07. Comments and endorsers welcome. Still accepting contributions (contact editors)