t-channel dark matter models – a whitepaper

Chiara Arina; Benjamin Fuks; Luca Panizzi; Michael J. Baker; Alan S. Cornell; Jan Heisig; Benedikt Maier; Rute Pedro; Dominique Trischuk; Diyar Agin; Alexandre Arbey; Giorgio Arcadi; Emanuele Bagnaschi; Kehang Bai; Disha Bhatia; Mathias Becker; Alexander Belyaev; Ferdinand Benoit; Monika Blanke; Jackson Burzynski; Jonathan M. Butterworth; Antimo Cagnotta; Lorenzo Calibbi; Linda M. Carpenter; Xabier Cid Vidal; Emanuele Copello; Louie Corpe; Francesco D’Amico; Aldo Deandrea; Aman Desai; Caterina Doglioni; Sunil M. Dogra; Mathias Garny; Mark D. Goodsell; Sohaib Hassan; Philip Coleman Harris; Julia Harz; Alejandro Ibarra; Alberto Orso Maria Iorio; Felix Kahlhoefer; Deepak Kar; Shaaban Khalil; Valery Khoze; Pyungwon Ko; Sabine Kraml; Greg Landsberg; Andre Lessa; Laura Lopez-Honorez; Alberto Mariotti; Vasiliki A. Mitsou; Kirtimaan Mohan; Chang Seong Moon; Alexander Moreno Briceno; Maria Moreno Llacer; Leandre Munoz-Aillaud; Taylor Murphy; Anele M. Ncube; Wandile Nzuza; Clarisse Prat; Lena Rathmann; Thobani Sangweni; Dipan Sengupta; William Shepherd; Sukanya Sinha; Tim M.P. Tait; Andrea Thamm; Michel H.G. Tytgat; Zirui Wang; David Yu; Shin Shan Yu

doi:10.1140/epjc/s10052-025-14635-7

Jonathan M. Butterworth, Antimo Cagnotta, Lorenzo Calibbi, Linda M. Carpenter, Xabier Cid Vidal, Emanuele Copello, Louie Corpe, Francesco D’Amico, Aldo Deandrea, Aman Desai, Caterina Doglioni, Sunil M. Dogra, Mathias Garny, Mark D. Goodsell, Sohaib Hassan, Philip Coleman Harris, Julia Harz, Alejandro Ibarra, Alberto Orso Maria Iorio, Felix Kahlhoefer, Deepak Kar, Shaaban Khalil, Valery Khoze, Pyungwon Ko, Sabine Kraml, Greg Landsberg, Andre Lessa, Laura Lopez-Honorez, Alberto Mariotti, Vasiliki A. Mitsou, Kirtimaan Mohan, Chang Seong Moon, Alexander Moreno Briceno, Maria Moreno Llacer, Leandre Munoz-Aillaud, Taylor Murphy, Anele M. Ncube, Wandile Nzuza, Clarisse Prat, Lena Rathmann, Thobani Sangweni, Dipan Sengupta, William Shepherd, Sukanya Sinha, Tim M.P. Tait, Andrea Thamm, Michel H.G. Tytgat, Zirui Wang, David Yu, Shin Shan Yu

Physics

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This report, summarising work achieved in the context of the LHC Dark Matter Working Group, investigates the phenomenology of t-channel dark matter models, spanning minimal setups with a single dark matter candidate and mediator to more complex constructions closer to UV-complete models. For each considered class of models, we examine collider, cosmological and astrophysical implications. In addition, we explore scenarios with either promptly decaying or long-lived particles, as well as featuring diverse dark matter production mechanisms in the early universe. By providing a unified analysis framework, numerical tools and guidelines, this work aims to support future experimental and theoretical efforts in exploring t-channel dark matter models at colliders and in cosmology.

Original language	English
Article number	975
Journal	European Physical Journal C
Volume	85
Issue number	9
DOIs	https://doi.org/10.1140/epjc/s10052-025-14635-7
Publication status	Published - Sept 2025

ASJC Scopus subject areas

Engineering (miscellaneous)
Physics and Astronomy (miscellaneous)

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10.1140/epjc/s10052-025-14635-7

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Arina, C., Fuks, B., Panizzi, L., Baker, M. J., Cornell, A. S., Heisig, J., Maier, B., Pedro, R., Trischuk, D., Agin, D., Arbey, A., Arcadi, G., Bagnaschi, E., Bai, K., Bhatia, D., Becker, M., Belyaev, A., Benoit, F., Blanke, M., ... Yu, S. S. (2025). t-channel dark matter models – a whitepaper. European Physical Journal C, 85(9), Article 975. https://doi.org/10.1140/epjc/s10052-025-14635-7

@article{03307477aab44bf2a789a38956468f6f,

title = "t-channel dark matter models – a whitepaper",

abstract = "This report, summarising work achieved in the context of the LHC Dark Matter Working Group, investigates the phenomenology of t-channel dark matter models, spanning minimal setups with a single dark matter candidate and mediator to more complex constructions closer to UV-complete models. For each considered class of models, we examine collider, cosmological and astrophysical implications. In addition, we explore scenarios with either promptly decaying or long-lived particles, as well as featuring diverse dark matter production mechanisms in the early universe. By providing a unified analysis framework, numerical tools and guidelines, this work aims to support future experimental and theoretical efforts in exploring t-channel dark matter models at colliders and in cosmology.",

author = "Chiara Arina and Benjamin Fuks and Luca Panizzi and Baker, \{Michael J.\} and Cornell, \{Alan S.\} and Jan Heisig and Benedikt Maier and Rute Pedro and Dominique Trischuk and Diyar Agin and Alexandre Arbey and Giorgio Arcadi and Emanuele Bagnaschi and Kehang Bai and Disha Bhatia and Mathias Becker and Alexander Belyaev and Ferdinand Benoit and Monika Blanke and Jackson Burzynski and Butterworth, \{Jonathan M.\} and Antimo Cagnotta and Lorenzo Calibbi and Carpenter, \{Linda M.\} and \{Cid Vidal\}, Xabier and Emanuele Copello and Louie Corpe and Francesco D{\textquoteright}Amico and Aldo Deandrea and Aman Desai and Caterina Doglioni and Dogra, \{Sunil M.\} and Mathias Garny and Goodsell, \{Mark D.\} and Sohaib Hassan and Harris, \{Philip Coleman\} and Julia Harz and Alejandro Ibarra and Iorio, \{Alberto Orso Maria\} and Felix Kahlhoefer and Deepak Kar and Shaaban Khalil and Valery Khoze and Pyungwon Ko and Sabine Kraml and Greg Landsberg and Andre Lessa and Laura Lopez-Honorez and Alberto Mariotti and Mitsou, \{Vasiliki A.\} and Kirtimaan Mohan and Moon, \{Chang Seong\} and \{Moreno Briceno\}, Alexander and \{Moreno Llacer\}, Maria and Leandre Munoz-Aillaud and Taylor Murphy and Ncube, \{Anele M.\} and Wandile Nzuza and Clarisse Prat and Lena Rathmann and Thobani Sangweni and Dipan Sengupta and William Shepherd and Sukanya Sinha and Tait, \{Tim M.P.\} and Andrea Thamm and Tytgat, \{Michel H.G.\} and Zirui Wang and David Yu and Yu, \{Shin Shan\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = sep,

doi = "10.1140/epjc/s10052-025-14635-7",

language = "English",

volume = "85",

journal = "European Physical Journal C",

issn = "1434-6044",

publisher = "Springer Nature",

number = "9",

}

Arina, C, Fuks, B, Panizzi, L, Baker, MJ, Cornell, AS, Heisig, J, Maier, B, Pedro, R, Trischuk, D, Agin, D, Arbey, A, Arcadi, G, Bagnaschi, E, Bai, K, Bhatia, D, Becker, M, Belyaev, A, Benoit, F, Blanke, M, Burzynski, J, Butterworth, JM, Cagnotta, A, Calibbi, L, Carpenter, LM, Cid Vidal, X, Copello, E, Corpe, L, D’Amico, F, Deandrea, A, Desai, A, Doglioni, C, Dogra, SM, Garny, M, Goodsell, MD, Hassan, S, Harris, PC, Harz, J, Ibarra, A, Iorio, AOM, Kahlhoefer, F, Kar, D, Khalil, S, Khoze, V, Ko, P, Kraml, S, Landsberg, G, Lessa, A, Lopez-Honorez, L, Mariotti, A, Mitsou, VA, Mohan, K, Moon, CS, Moreno Briceno, A, Moreno Llacer, M, Munoz-Aillaud, L, Murphy, T, Ncube, AM, Nzuza, W, Prat, C, Rathmann, L, Sangweni, T, Sengupta, D, Shepherd, W, Sinha, S, Tait, TMP, Thamm, A, Tytgat, MHG, Wang, Z, Yu, D & Yu, SS 2025, 't-channel dark matter models – a whitepaper', European Physical Journal C, vol. 85, no. 9, 975. https://doi.org/10.1140/epjc/s10052-025-14635-7

TY - JOUR

T1 - t-channel dark matter models – a whitepaper

AU - Arina, Chiara

AU - Fuks, Benjamin

AU - Panizzi, Luca

AU - Baker, Michael J.

AU - Cornell, Alan S.

AU - Heisig, Jan

AU - Maier, Benedikt

AU - Pedro, Rute

AU - Trischuk, Dominique

AU - Agin, Diyar

AU - Arbey, Alexandre

AU - Arcadi, Giorgio

AU - Bagnaschi, Emanuele

AU - Bai, Kehang

AU - Bhatia, Disha

AU - Becker, Mathias

AU - Belyaev, Alexander

AU - Benoit, Ferdinand

AU - Blanke, Monika

AU - Burzynski, Jackson

AU - Butterworth, Jonathan M.

AU - Cagnotta, Antimo

AU - Calibbi, Lorenzo

AU - Carpenter, Linda M.

AU - Cid Vidal, Xabier

AU - Copello, Emanuele

AU - Corpe, Louie

AU - D’Amico, Francesco

AU - Deandrea, Aldo

AU - Desai, Aman

AU - Doglioni, Caterina

AU - Dogra, Sunil M.

AU - Garny, Mathias

AU - Goodsell, Mark D.

AU - Hassan, Sohaib

AU - Harris, Philip Coleman

AU - Harz, Julia

AU - Ibarra, Alejandro

AU - Iorio, Alberto Orso Maria

AU - Kahlhoefer, Felix

AU - Kar, Deepak

AU - Khalil, Shaaban

AU - Khoze, Valery

AU - Ko, Pyungwon

AU - Kraml, Sabine

AU - Landsberg, Greg

AU - Lessa, Andre

AU - Lopez-Honorez, Laura

AU - Mariotti, Alberto

AU - Mitsou, Vasiliki A.

AU - Mohan, Kirtimaan

AU - Moon, Chang Seong

AU - Moreno Briceno, Alexander

AU - Moreno Llacer, Maria

AU - Munoz-Aillaud, Leandre

AU - Murphy, Taylor

AU - Ncube, Anele M.

AU - Nzuza, Wandile

AU - Prat, Clarisse

AU - Rathmann, Lena

AU - Sangweni, Thobani

AU - Sengupta, Dipan

AU - Shepherd, William

AU - Sinha, Sukanya

AU - Tait, Tim M.P.

AU - Thamm, Andrea

AU - Tytgat, Michel H.G.

AU - Wang, Zirui

AU - Yu, David

AU - Yu, Shin Shan

PY - 2025/9

Y1 - 2025/9

N2 - This report, summarising work achieved in the context of the LHC Dark Matter Working Group, investigates the phenomenology of t-channel dark matter models, spanning minimal setups with a single dark matter candidate and mediator to more complex constructions closer to UV-complete models. For each considered class of models, we examine collider, cosmological and astrophysical implications. In addition, we explore scenarios with either promptly decaying or long-lived particles, as well as featuring diverse dark matter production mechanisms in the early universe. By providing a unified analysis framework, numerical tools and guidelines, this work aims to support future experimental and theoretical efforts in exploring t-channel dark matter models at colliders and in cosmology.

AB - This report, summarising work achieved in the context of the LHC Dark Matter Working Group, investigates the phenomenology of t-channel dark matter models, spanning minimal setups with a single dark matter candidate and mediator to more complex constructions closer to UV-complete models. For each considered class of models, we examine collider, cosmological and astrophysical implications. In addition, we explore scenarios with either promptly decaying or long-lived particles, as well as featuring diverse dark matter production mechanisms in the early universe. By providing a unified analysis framework, numerical tools and guidelines, this work aims to support future experimental and theoretical efforts in exploring t-channel dark matter models at colliders and in cosmology.

UR - https://www.scopus.com/pages/publications/105016098750

U2 - 10.1140/epjc/s10052-025-14635-7

DO - 10.1140/epjc/s10052-025-14635-7

M3 - Article

AN - SCOPUS:105016098750

SN - 1434-6044

VL - 85

JO - European Physical Journal C

JF - European Physical Journal C

IS - 9

M1 - 975

ER -

t-channel dark matter models – a whitepaper

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