FASER’s physics reach for long-lived particles

The ForwArd Search ExpeRiment (FASER) is an approved experiment dedicated to searching for light, extremely weakly interacting particles at the LHC. Such particles may be produced in the LHC’s high-energy collisions and travel long distances through concrete and rock without interacting. They may th...

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Detalles Bibliográficos
Autores principales: Ariga, Akitaka, Ariga, Tomoko, Boyd, Jamie, Cadoux, Franck, Casper, David W., Favre, Yannick, Feng, Jonathan L., Ferrere, Didier, Galon, Iftah, Gonzalez-Sevilla, Sergio, Hsu, Shih-Chieh, Iacobucci, Giuseppe, Kajomovitz, Enrique, Kling, Felix, Kuehn, Susanne, Levinson, Lorne, Otono, Hidetoshi, Petersen, Brian, Sato, Osamu, Schott, Matthias, Sfyrla, Anna, Smolinsky, Jordan, Soffa, Aaron M., Takubo, Yosuke, Torrence, Eric, Trojanowski, Sebastian, Zhang, Gang
Lenguaje:eng
Publicado: 2018
Materias:
hep-ex
Particle Physics - Experiment
hep-ph
Particle Physics - Phenomenology
Acceso en línea:https://dx.doi.org/10.1103/PhysRevD.99.095011
http://cds.cern.ch/record/2652275
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author Ariga, Akitaka
Ariga, Tomoko
Boyd, Jamie
Cadoux, Franck
Casper, David W.
Favre, Yannick
Feng, Jonathan L.
Ferrere, Didier
Galon, Iftah
Gonzalez-Sevilla, Sergio
Hsu, Shih-Chieh
Iacobucci, Giuseppe
Kajomovitz, Enrique
Kling, Felix
Kuehn, Susanne
Levinson, Lorne
Otono, Hidetoshi
Petersen, Brian
Sato, Osamu
Schott, Matthias
Sfyrla, Anna
Smolinsky, Jordan
Soffa, Aaron M.
Takubo, Yosuke
Torrence, Eric
Trojanowski, Sebastian
Zhang, Gang
author_facet Ariga, Akitaka
Ariga, Tomoko
Boyd, Jamie
Cadoux, Franck
Casper, David W.
Favre, Yannick
Feng, Jonathan L.
Ferrere, Didier
Galon, Iftah
Gonzalez-Sevilla, Sergio
Hsu, Shih-Chieh
Iacobucci, Giuseppe
Kajomovitz, Enrique
Kling, Felix
Kuehn, Susanne
Levinson, Lorne
Otono, Hidetoshi
Petersen, Brian
Sato, Osamu
Schott, Matthias
Sfyrla, Anna
Smolinsky, Jordan
Soffa, Aaron M.
Takubo, Yosuke
Torrence, Eric
Trojanowski, Sebastian
Zhang, Gang
author_sort Ariga, Akitaka
collection CERN
description The ForwArd Search ExpeRiment (FASER) is an approved experiment dedicated to searching for light, extremely weakly interacting particles at the LHC. Such particles may be produced in the LHC’s high-energy collisions and travel long distances through concrete and rock without interacting. They may then decay to visible particles in FASER, which is placed 480 m downstream of the ATLAS interaction point. In this work we briefly describe the FASER detector layout and the status of potential backgrounds. We then present the sensitivity reach for FASER for a large number of long-lived particle models, updating previous results to a uniform set of detector assumptions, and analyzing new models. In particular, we consider all of the renormalizable portal interactions, leading to dark photons, dark Higgs bosons, and heavy neutral leptons; light B-L and Li-Lj gauge bosons; axionlike particles that are coupled dominantly to photons, fermions, and gluons through nonrenormalizable operators; and pseudoscalars with Yukawa-like couplings. We find that FASER and its follow-up, FASER 2, have a full physics program, with discovery sensitivity in all of these models and potentially far-reaching implications for particle physics and cosmology.
id cern-2652275
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
record_format invenio
spelling cern-26522752021-12-21T13:14:07Zdoi:10.1103/PhysRevD.99.095011http://cds.cern.ch/record/2652275engAriga, AkitakaAriga, TomokoBoyd, JamieCadoux, FranckCasper, David W.Favre, YannickFeng, Jonathan L.Ferrere, DidierGalon, IftahGonzalez-Sevilla, SergioHsu, Shih-ChiehIacobucci, GiuseppeKajomovitz, EnriqueKling, FelixKuehn, SusanneLevinson, LorneOtono, HidetoshiPetersen, BrianSato, OsamuSchott, MatthiasSfyrla, AnnaSmolinsky, JordanSoffa, Aaron M.Takubo, YosukeTorrence, EricTrojanowski, SebastianZhang, GangFASER’s physics reach for long-lived particleshep-exParticle Physics - Experimenthep-phParticle Physics - PhenomenologyThe ForwArd Search ExpeRiment (FASER) is an approved experiment dedicated to searching for light, extremely weakly interacting particles at the LHC. Such particles may be produced in the LHC’s high-energy collisions and travel long distances through concrete and rock without interacting. They may then decay to visible particles in FASER, which is placed 480 m downstream of the ATLAS interaction point. In this work we briefly describe the FASER detector layout and the status of potential backgrounds. We then present the sensitivity reach for FASER for a large number of long-lived particle models, updating previous results to a uniform set of detector assumptions, and analyzing new models. In particular, we consider all of the renormalizable portal interactions, leading to dark photons, dark Higgs bosons, and heavy neutral leptons; light B-L and Li-Lj gauge bosons; axionlike particles that are coupled dominantly to photons, fermions, and gluons through nonrenormalizable operators; and pseudoscalars with Yukawa-like couplings. We find that FASER and its follow-up, FASER 2, have a full physics program, with discovery sensitivity in all of these models and potentially far-reaching implications for particle physics and cosmology.FASER,the ForwArd Search ExpeRiment,is a proposed experiment dedicated to searching for light, extremely weakly-interacting particles at the LHC. Such particles may be produced in the LHC's high-energy collisions and travel long distances through concrete and rock without interacting. They may then decay to visible particles in FASER, which is placed 480 m downstream of the ATLAS interaction point. In this work we briefly describe the FASER detector layout and the status of potential backgrounds. We then present the sensitivity reach for FASER for a large number of long-lived particle models, updating previous results to a uniform set of detector assumptions, and analyzing new models. In particular, we consider all of the renormalizable portal interactions, leading to dark photons, dark Higgs bosons, and heavy neutral leptons (HNLs); light B-L and $L_i - L_j$ gauge bosons; axion-like particles (ALPs) that are coupled dominantly to photons, fermions, and gluons through non-renormalizable operators; and pseudoscalars with Yukawa-like couplings. We find that FASER and its follow-up, FASER 2, have a full physics program, with discovery sensitivity in all of these models and potentially far-reaching implications for particle physics and cosmology.arXiv:1811.12522UCI-TR-2018-19KYUSHU-RCAPP-2018-06oai:cds.cern.ch:26522752018-11-29
spellingShingle hep-ex
Particle Physics - Experiment
hep-ph
Particle Physics - Phenomenology
Ariga, Akitaka
Ariga, Tomoko
Boyd, Jamie
Cadoux, Franck
Casper, David W.
Favre, Yannick
Feng, Jonathan L.
Ferrere, Didier
Galon, Iftah
Gonzalez-Sevilla, Sergio
Hsu, Shih-Chieh
Iacobucci, Giuseppe
Kajomovitz, Enrique
Kling, Felix
Kuehn, Susanne
Levinson, Lorne
Otono, Hidetoshi
Petersen, Brian
Sato, Osamu
Schott, Matthias
Sfyrla, Anna
Smolinsky, Jordan
Soffa, Aaron M.
Takubo, Yosuke
Torrence, Eric
Trojanowski, Sebastian
Zhang, Gang
FASER’s physics reach for long-lived particles
title FASER’s physics reach for long-lived particles
title_full FASER’s physics reach for long-lived particles
title_fullStr FASER’s physics reach for long-lived particles
title_full_unstemmed FASER’s physics reach for long-lived particles
title_short FASER’s physics reach for long-lived particles
title_sort faser’s physics reach for long-lived particles
topic hep-ex
Particle Physics - Experiment
hep-ph
Particle Physics - Phenomenology
url https://dx.doi.org/10.1103/PhysRevD.99.095011
http://cds.cern.ch/record/2652275
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