Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos

Markus Ackermann; Markus Ahlers; Luis Anchordoqui; Mauricio Bustamante; Amy Connolly; Cosmin Deaconu; Darren Grant; Peter Gorham; Francis Halzen; Albrecht Karle; Kumiko Kotera; Marek Kowalski; Miguel A. Mostafa; Kohta Murase; Anna Nelles; Angela Olinto; Andres Romero-Wolf; Abigail Vieregg; Stephanie Wissel

Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos

Markus Ackermann, Markus Ahlers, Luis Anchordoqui, Mauricio Bustamante, Amy Connolly, Cosmin Deaconu, Darren Grant, Peter Gorham, Francis Halzen, Albrecht Karle, Kumiko Kotera, Marek Kowalski, Miguel A. Mostafa, Kohta Murase, Anna Nelles, Angela Olinto, Andres Romero-Wolf, Abigail Vieregg, Stephanie Wissel

Teoretisk højenergi, astropartikel og gravitationel fysik

Abstract

High-energy cosmic neutrinos carry unique information about the most energetic non-thermal sources in the Universe. This white paper describes the outstanding astrophysics questions that neutrino astronomy can address in the coming decade. A companion white paper discusses how the observation of cosmic neutrinos can address open questions in fundamental physics. Detailed measurements of the diffuse neutrino flux, measurements of neutrinos from point sources, and multi-messenger observations with neutrinos will enable the discovery and characterization of the most energetic sources in the Universe.

Originalsprog	Engelsk
Tidsskrift	Bulletin of the American Astronomical Society
Vol/bind	51
Antal sider	26
ISSN	0002-7537
Status	Udgivet - 11 mar. 2019

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astro-ph.HE
astro-ph.CO
hep-ph

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http://arxiv.org/abs/arXiv:1903.04334Licens: Andet

Citationsformater

Ackermann, M., Ahlers, M., Anchordoqui, L., Bustamante, M., Connolly, A., Deaconu, C., Grant, D., Gorham, P., Halzen, F., Karle, A., Kotera, K., Kowalski, M., Mostafa, M. A., Murase, K., Nelles, A., Olinto, A., Romero-Wolf, A., Vieregg, A., & Wissel, S. (2019). Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos. Bulletin of the American Astronomical Society, 51. http://arxiv.org/abs/arXiv:1903.04334

Ackermann, M, Ahlers, M, Anchordoqui, L, Bustamante, M, Connolly, A, Deaconu, C, Grant, D, Gorham, P, Halzen, F, Karle, A, Kotera, K, Kowalski, M, Mostafa, MA, Murase, K, Nelles, A, Olinto, A, Romero-Wolf, A, Vieregg, A & Wissel, S 2019, 'Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos', Bulletin of the American Astronomical Society, bind 51. <http://arxiv.org/abs/arXiv:1903.04334>

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title = "Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos",

abstract = " High-energy cosmic neutrinos carry unique information about the most energetic non-thermal sources in the Universe. This white paper describes the outstanding astrophysics questions that neutrino astronomy can address in the coming decade. A companion white paper discusses how the observation of cosmic neutrinos can address open questions in fundamental physics. Detailed measurements of the diffuse neutrino flux, measurements of neutrinos from point sources, and multi-messenger observations with neutrinos will enable the discovery and characterization of the most energetic sources in the Universe. ",

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author = "Markus Ackermann and Markus Ahlers and Luis Anchordoqui and Mauricio Bustamante and Amy Connolly and Cosmin Deaconu and Darren Grant and Peter Gorham and Francis Halzen and Albrecht Karle and Kumiko Kotera and Marek Kowalski and Mostafa, {Miguel A.} and Kohta Murase and Anna Nelles and Angela Olinto and Andres Romero-Wolf and Abigail Vieregg and Stephanie Wissel",

note = "White paper for the Astro2020 US decadal survey. Companion paper: {"}Fundamental Physics with High-Energy Cosmic Neutrinos{"} (1903.04333). Corresponding Authors: Markus Ahlers, Albrecht Karle, Kohta Murase, Anna Nelles, Andres Romero-Wolf, Abigail Vieregg",

year = "2019",

month = mar,

day = "11",

language = "English",

volume = "51",

journal = "American Astronomical Society. Bulletin",

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T1 - Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos

AU - Ackermann, Markus

AU - Ahlers, Markus

AU - Anchordoqui, Luis

AU - Bustamante, Mauricio

AU - Connolly, Amy

AU - Deaconu, Cosmin

AU - Grant, Darren

AU - Gorham, Peter

AU - Halzen, Francis

AU - Karle, Albrecht

AU - Kotera, Kumiko

AU - Kowalski, Marek

AU - Mostafa, Miguel A.

AU - Murase, Kohta

AU - Nelles, Anna

AU - Olinto, Angela

AU - Romero-Wolf, Andres

AU - Vieregg, Abigail

AU - Wissel, Stephanie

N1 - White paper for the Astro2020 US decadal survey. Companion paper: "Fundamental Physics with High-Energy Cosmic Neutrinos" (1903.04333). Corresponding Authors: Markus Ahlers, Albrecht Karle, Kohta Murase, Anna Nelles, Andres Romero-Wolf, Abigail Vieregg

PY - 2019/3/11

Y1 - 2019/3/11

N2 - High-energy cosmic neutrinos carry unique information about the most energetic non-thermal sources in the Universe. This white paper describes the outstanding astrophysics questions that neutrino astronomy can address in the coming decade. A companion white paper discusses how the observation of cosmic neutrinos can address open questions in fundamental physics. Detailed measurements of the diffuse neutrino flux, measurements of neutrinos from point sources, and multi-messenger observations with neutrinos will enable the discovery and characterization of the most energetic sources in the Universe.

AB - High-energy cosmic neutrinos carry unique information about the most energetic non-thermal sources in the Universe. This white paper describes the outstanding astrophysics questions that neutrino astronomy can address in the coming decade. A companion white paper discusses how the observation of cosmic neutrinos can address open questions in fundamental physics. Detailed measurements of the diffuse neutrino flux, measurements of neutrinos from point sources, and multi-messenger observations with neutrinos will enable the discovery and characterization of the most energetic sources in the Universe.

KW - astro-ph.HE

KW - astro-ph.CO

KW - hep-ph

M3 - Journal article

SN - 0002-7537

VL - 51

JO - American Astronomical Society. Bulletin

JF - American Astronomical Society. Bulletin

ER -

Astrophysics Uniquely Enabled by Observations of High-Energy Cosmic Neutrinos

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