Neutrino self-interactions: A white paper

Publikation: Bidrag til tidsskriftReviewForskningfagfællebedømt

Standard

Neutrino self-interactions : A white paper. / Berryman, Jeffrey M.; Blinov, Nikita; Brdar, Vedran; Brinckmann, Thejs; Bustamante, Mauricio; Cyr-Racine, Francis Yan; Das, Anirban; de Gouvêa, André; Denton, Peter B.; Dev, P. S.Bhupal; Dutta, Bhaskar; Esteban, Ivan; Fiorillo, Damiano; Gerbino, Martina; Ghosh, Subhajit; Ghosh, Tathagata; Grohs, Evan; Han, Tao; Hannestad, Steen; Hostert, Matheus; Huber, Patrick; Hyde, Jeffrey; Kelly, Kevin J.; Kling, Felix; Liu, Zhen; Lattanzi, Massimiliano; Loverde, Marilena; Pandey, Sujata; Saviano, Ninetta; Sen, Manibrata; Shoemaker, Ian M.; Tangarife, Walter; Zhang, Yongchao; Zhang, Yue.

I: Physics of the Dark Universe, Bind 42, 101267, 29.09.2023.

Publikation: Bidrag til tidsskriftReviewForskningfagfællebedømt

Harvard

Berryman, JM, Blinov, N, Brdar, V, Brinckmann, T, Bustamante, M, Cyr-Racine, FY, Das, A, de Gouvêa, A, Denton, PB, Dev, PSB, Dutta, B, Esteban, I, Fiorillo, D, Gerbino, M, Ghosh, S, Ghosh, T, Grohs, E, Han, T, Hannestad, S, Hostert, M, Huber, P, Hyde, J, Kelly, KJ, Kling, F, Liu, Z, Lattanzi, M, Loverde, M, Pandey, S, Saviano, N, Sen, M, Shoemaker, IM, Tangarife, W, Zhang, Y & Zhang, Y 2023, 'Neutrino self-interactions: A white paper', Physics of the Dark Universe, bind 42, 101267. https://doi.org/10.1016/j.dark.2023.101267

APA

Berryman, J. M., Blinov, N., Brdar, V., Brinckmann, T., Bustamante, M., Cyr-Racine, F. Y., Das, A., de Gouvêa, A., Denton, P. B., Dev, P. S. B., Dutta, B., Esteban, I., Fiorillo, D., Gerbino, M., Ghosh, S., Ghosh, T., Grohs, E., Han, T., Hannestad, S., ... Zhang, Y. (2023). Neutrino self-interactions: A white paper. Physics of the Dark Universe, 42, [101267]. https://doi.org/10.1016/j.dark.2023.101267

Vancouver

Berryman JM, Blinov N, Brdar V, Brinckmann T, Bustamante M, Cyr-Racine FY o.a. Neutrino self-interactions: A white paper. Physics of the Dark Universe. 2023 sep. 29;42. 101267. https://doi.org/10.1016/j.dark.2023.101267

Author

Berryman, Jeffrey M. ; Blinov, Nikita ; Brdar, Vedran ; Brinckmann, Thejs ; Bustamante, Mauricio ; Cyr-Racine, Francis Yan ; Das, Anirban ; de Gouvêa, André ; Denton, Peter B. ; Dev, P. S.Bhupal ; Dutta, Bhaskar ; Esteban, Ivan ; Fiorillo, Damiano ; Gerbino, Martina ; Ghosh, Subhajit ; Ghosh, Tathagata ; Grohs, Evan ; Han, Tao ; Hannestad, Steen ; Hostert, Matheus ; Huber, Patrick ; Hyde, Jeffrey ; Kelly, Kevin J. ; Kling, Felix ; Liu, Zhen ; Lattanzi, Massimiliano ; Loverde, Marilena ; Pandey, Sujata ; Saviano, Ninetta ; Sen, Manibrata ; Shoemaker, Ian M. ; Tangarife, Walter ; Zhang, Yongchao ; Zhang, Yue. / Neutrino self-interactions : A white paper. I: Physics of the Dark Universe. 2023 ; Bind 42.

Bibtex

@article{057de749282c418998274cef2ae59e42,
title = "Neutrino self-interactions: A white paper",
abstract = "Neutrinos are the Standard Model (SM) particles which we understand the least, often due to how weakly they interact with the other SM particles. Beyond this, very little is known about interactions among the neutrinos, i.e., their self-interactions. The SM predicts neutrino self-interactions at a level beyond any current experimental capabilities, leaving open the possibility for beyond-the-SM interactions across many energy scales. In this white paper, we review the current knowledge of neutrino self-interactions from a vast array of probes, from cosmology, to astrophysics, to the laboratory. We also discuss theoretical motivations for such self-interactions, including neutrino masses and possible connections to dark matter. Looking forward, we discuss the capabilities of searches in the next generation and beyond, highlighting the possibility of future discovery of this beyond-the-SM physics.",
keywords = "Astrophysical probes, Cosmological probes, Laboratory probes, Neutrino self-interactions, Theoretical models",
author = "Berryman, {Jeffrey M.} and Nikita Blinov and Vedran Brdar and Thejs Brinckmann and Mauricio Bustamante and Cyr-Racine, {Francis Yan} and Anirban Das and {de Gouv{\^e}a}, Andr{\'e} and Denton, {Peter B.} and Dev, {P. S.Bhupal} and Bhaskar Dutta and Ivan Esteban and Damiano Fiorillo and Martina Gerbino and Subhajit Ghosh and Tathagata Ghosh and Evan Grohs and Tao Han and Steen Hannestad and Matheus Hostert and Patrick Huber and Jeffrey Hyde and Kelly, {Kevin J.} and Felix Kling and Zhen Liu and Massimiliano Lattanzi and Marilena Loverde and Sujata Pandey and Ninetta Saviano and Manibrata Sen and Shoemaker, {Ian M.} and Walter Tangarife and Yongchao Zhang and Yue Zhang",
note = "Publisher Copyright: {\textcopyright} 2023 Elsevier B.V.",
year = "2023",
month = sep,
day = "29",
doi = "10.1016/j.dark.2023.101267",
language = "English",
volume = "42",
journal = "Physics of the Dark Universe",
issn = "2212-6864",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Neutrino self-interactions

T2 - A white paper

AU - Berryman, Jeffrey M.

AU - Blinov, Nikita

AU - Brdar, Vedran

AU - Brinckmann, Thejs

AU - Bustamante, Mauricio

AU - Cyr-Racine, Francis Yan

AU - Das, Anirban

AU - de Gouvêa, André

AU - Denton, Peter B.

AU - Dev, P. S.Bhupal

AU - Dutta, Bhaskar

AU - Esteban, Ivan

AU - Fiorillo, Damiano

AU - Gerbino, Martina

AU - Ghosh, Subhajit

AU - Ghosh, Tathagata

AU - Grohs, Evan

AU - Han, Tao

AU - Hannestad, Steen

AU - Hostert, Matheus

AU - Huber, Patrick

AU - Hyde, Jeffrey

AU - Kelly, Kevin J.

AU - Kling, Felix

AU - Liu, Zhen

AU - Lattanzi, Massimiliano

AU - Loverde, Marilena

AU - Pandey, Sujata

AU - Saviano, Ninetta

AU - Sen, Manibrata

AU - Shoemaker, Ian M.

AU - Tangarife, Walter

AU - Zhang, Yongchao

AU - Zhang, Yue

N1 - Publisher Copyright: © 2023 Elsevier B.V.

PY - 2023/9/29

Y1 - 2023/9/29

N2 - Neutrinos are the Standard Model (SM) particles which we understand the least, often due to how weakly they interact with the other SM particles. Beyond this, very little is known about interactions among the neutrinos, i.e., their self-interactions. The SM predicts neutrino self-interactions at a level beyond any current experimental capabilities, leaving open the possibility for beyond-the-SM interactions across many energy scales. In this white paper, we review the current knowledge of neutrino self-interactions from a vast array of probes, from cosmology, to astrophysics, to the laboratory. We also discuss theoretical motivations for such self-interactions, including neutrino masses and possible connections to dark matter. Looking forward, we discuss the capabilities of searches in the next generation and beyond, highlighting the possibility of future discovery of this beyond-the-SM physics.

AB - Neutrinos are the Standard Model (SM) particles which we understand the least, often due to how weakly they interact with the other SM particles. Beyond this, very little is known about interactions among the neutrinos, i.e., their self-interactions. The SM predicts neutrino self-interactions at a level beyond any current experimental capabilities, leaving open the possibility for beyond-the-SM interactions across many energy scales. In this white paper, we review the current knowledge of neutrino self-interactions from a vast array of probes, from cosmology, to astrophysics, to the laboratory. We also discuss theoretical motivations for such self-interactions, including neutrino masses and possible connections to dark matter. Looking forward, we discuss the capabilities of searches in the next generation and beyond, highlighting the possibility of future discovery of this beyond-the-SM physics.

KW - Astrophysical probes

KW - Cosmological probes

KW - Laboratory probes

KW - Neutrino self-interactions

KW - Theoretical models

U2 - 10.1016/j.dark.2023.101267

DO - 10.1016/j.dark.2023.101267

M3 - Review

AN - SCOPUS:85162109411

VL - 42

JO - Physics of the Dark Universe

JF - Physics of the Dark Universe

SN - 2212-6864

M1 - 101267

ER -

ID: 368571697