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Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case
We examine the theoretical motivations for long-lived particle (LLP) signals at the LHC in a comprehensive survey of standard model (SM) extensions. LLPs are a common prediction of a wide range of theories that address unsolved fundamental mysteries such as naturalness, dark matter, baryogenesis and...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2018
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1361-6633/ab28d6 http://cds.cern.ch/record/2627054 |
| _version_ | 1780958937945735168 |
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| author | Curtin, David Drewes, Marco McCullough, Matthew Meade, Patrick Mohapatra, Rabindra N. Shelton, Jessie Shuve, Brian Accomando, Elena Alpigiani, Cristiano Antusch, Stefan Arteaga-Velázquez, Juan Carlos Batell, Brian Bauer, Martin Blinov, Nikita Caballero-Mora, Karen Salomé Chang, Jae Hyeok Chun, Eung Jin Co, Raymond T. Cohen, Timothy Cox, Peter Craig, Nathaniel Csáki, Csaba Cui, Yanou D'Eramo, Francesco Delle Rose, Luigi Bhupal Dev, P.S. Dienes, Keith R. Dror, Jeff A. Essig, Rouven Evans, Jared A. Evans, Jason L. Tellez, Arturo Fernández Fischer, Oliver Flacke, Thomas Fradette, Anthony Frugiuele, Claudia Fuchs, Elina Gherghetta, Tony Giudice, Gian F. Gorbunov, Dmitry Gupta, Rick S. Hagedorn, Claudia Hall, Lawrence J. Harris, Philip Helo, Juan Carlos Hirsch, Martin Hochberg, Yonit Hook, Anson Ibarra, Alejandro Ipek, Seyda Jung, Sunghoon Knapen, Simon Kuflik, Eric Liu, Zhen Lombardo, Salvator Lubatti, H.J. McKeen, David Molinaro, Emiliano Moretti, Stefano Nagata, Natsumi Neubert, Matthias No, Jose Miguel Olaiya, Emmanuel Perez, Gilad Peskin, Michael E. Pinner, David Pospelov, Maxim Reece, Matthew Robinson, Dean J. Cahuantzi, Mario Rodríguez Santonico, Rinaldo Schlaffer, Matthias Shepherd-Themistocleous, Claire H. Spray, Andrew Stolarski, Daniel Subieta Vasquez, Martin A. Sundrum, Raman Thamm, Andrea Thomas, Brooks Tsai, Yuhsin Tweedie, Brock West, Stephen M. Young, Charles Yu, Felix Zaldivar, Bryan Zhang, Yongchao Zurek, Kathryn Zurita, José |
| author_facet | Curtin, David Drewes, Marco McCullough, Matthew Meade, Patrick Mohapatra, Rabindra N. Shelton, Jessie Shuve, Brian Accomando, Elena Alpigiani, Cristiano Antusch, Stefan Arteaga-Velázquez, Juan Carlos Batell, Brian Bauer, Martin Blinov, Nikita Caballero-Mora, Karen Salomé Chang, Jae Hyeok Chun, Eung Jin Co, Raymond T. Cohen, Timothy Cox, Peter Craig, Nathaniel Csáki, Csaba Cui, Yanou D'Eramo, Francesco Delle Rose, Luigi Bhupal Dev, P.S. Dienes, Keith R. Dror, Jeff A. Essig, Rouven Evans, Jared A. Evans, Jason L. Tellez, Arturo Fernández Fischer, Oliver Flacke, Thomas Fradette, Anthony Frugiuele, Claudia Fuchs, Elina Gherghetta, Tony Giudice, Gian F. Gorbunov, Dmitry Gupta, Rick S. Hagedorn, Claudia Hall, Lawrence J. Harris, Philip Helo, Juan Carlos Hirsch, Martin Hochberg, Yonit Hook, Anson Ibarra, Alejandro Ipek, Seyda Jung, Sunghoon Knapen, Simon Kuflik, Eric Liu, Zhen Lombardo, Salvator Lubatti, H.J. McKeen, David Molinaro, Emiliano Moretti, Stefano Nagata, Natsumi Neubert, Matthias No, Jose Miguel Olaiya, Emmanuel Perez, Gilad Peskin, Michael E. Pinner, David Pospelov, Maxim Reece, Matthew Robinson, Dean J. Cahuantzi, Mario Rodríguez Santonico, Rinaldo Schlaffer, Matthias Shepherd-Themistocleous, Claire H. Spray, Andrew Stolarski, Daniel Subieta Vasquez, Martin A. Sundrum, Raman Thamm, Andrea Thomas, Brooks Tsai, Yuhsin Tweedie, Brock West, Stephen M. Young, Charles Yu, Felix Zaldivar, Bryan Zhang, Yongchao Zurek, Kathryn Zurita, José |
| author_sort | Curtin, David |
| collection | CERN |
| description | We examine the theoretical motivations for long-lived particle (LLP) signals at the LHC in a comprehensive survey of standard model (SM) extensions. LLPs are a common prediction of a wide range of theories that address unsolved fundamental mysteries such as naturalness, dark matter, baryogenesis and neutrino masses, and represent a natural and generic possibility for physics beyond the SM (BSM). In most cases the LLP lifetime can be treated as a free parameter from the m scale up to the Big Bang Nucleosynthesis limit of m. Neutral LLPs with lifetimes above 100 m are particularly difficult to probe, as the sensitivity of the LHC main detectors is limited by challenging backgrounds, triggers, and small acceptances. MATHUSLA is a proposal for a minimally instrumented, large-volume surface detector near ATLAS or CMS. It would search for neutral LLPs produced in HL-LHC collisions by reconstructing displaced vertices (DVs) in a low-background environment, extending the sensitivity of the main detectors by orders of magnitude in the long-lifetime regime. We study the LLP physics opportunities afforded by a MATHUSLA-like detector at the HL-LHC, assuming backgrounds can be rejected as expected. We develop a model-independent approach to describe the sensitivity of MATHUSLA to BSM LLP signals, and compare it to DV and missing energy searches at ATLAS or CMS. We then explore the BSM motivations for LLPs in considerable detail, presenting a large number of new sensitivity studies. While our discussion is especially oriented towards the long-lifetime regime at MATHUSLA, this survey underlines the importance of a varied LLP search program at the LHC in general. By synthesizing these results into a general discussion of the top–down and bottom-up motivations for LLP searches, it is our aim to demonstrate the exceptional strength and breadth of the physics case for the construction of the MATHUSLA detector. |
| id | cern-2627054 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2018 |
| record_format | invenio |
| spelling | cern-26270542023-09-12T03:29:38Zdoi:10.1088/1361-6633/ab28d6http://cds.cern.ch/record/2627054engCurtin, DavidDrewes, MarcoMcCullough, MatthewMeade, PatrickMohapatra, Rabindra N.Shelton, JessieShuve, BrianAccomando, ElenaAlpigiani, CristianoAntusch, StefanArteaga-Velázquez, Juan CarlosBatell, BrianBauer, MartinBlinov, NikitaCaballero-Mora, Karen SaloméChang, Jae HyeokChun, Eung JinCo, Raymond T.Cohen, TimothyCox, PeterCraig, NathanielCsáki, CsabaCui, YanouD'Eramo, FrancescoDelle Rose, LuigiBhupal Dev, P.S.Dienes, Keith R.Dror, Jeff A.Essig, RouvenEvans, Jared A.Evans, Jason L.Tellez, Arturo FernándezFischer, OliverFlacke, ThomasFradette, AnthonyFrugiuele, ClaudiaFuchs, ElinaGherghetta, TonyGiudice, Gian F.Gorbunov, DmitryGupta, Rick S.Hagedorn, ClaudiaHall, Lawrence J.Harris, PhilipHelo, Juan CarlosHirsch, MartinHochberg, YonitHook, AnsonIbarra, AlejandroIpek, SeydaJung, SunghoonKnapen, SimonKuflik, EricLiu, ZhenLombardo, SalvatorLubatti, H.J.McKeen, DavidMolinaro, EmilianoMoretti, StefanoNagata, NatsumiNeubert, MatthiasNo, Jose MiguelOlaiya, EmmanuelPerez, GiladPeskin, Michael E.Pinner, DavidPospelov, MaximReece, MatthewRobinson, Dean J.Cahuantzi, Mario RodríguezSantonico, RinaldoSchlaffer, MatthiasShepherd-Themistocleous, Claire H.Spray, AndrewStolarski, DanielSubieta Vasquez, Martin A.Sundrum, RamanThamm, AndreaThomas, BrooksTsai, YuhsinTweedie, BrockWest, Stephen M.Young, CharlesYu, FelixZaldivar, BryanZhang, YongchaoZurek, KathrynZurita, JoséLong-Lived Particles at the Energy Frontier: The MATHUSLA Physics Casehep-exParticle Physics - Experimenthep-phParticle Physics - PhenomenologyWe examine the theoretical motivations for long-lived particle (LLP) signals at the LHC in a comprehensive survey of standard model (SM) extensions. LLPs are a common prediction of a wide range of theories that address unsolved fundamental mysteries such as naturalness, dark matter, baryogenesis and neutrino masses, and represent a natural and generic possibility for physics beyond the SM (BSM). In most cases the LLP lifetime can be treated as a free parameter from the m scale up to the Big Bang Nucleosynthesis limit of m. Neutral LLPs with lifetimes above 100 m are particularly difficult to probe, as the sensitivity of the LHC main detectors is limited by challenging backgrounds, triggers, and small acceptances. MATHUSLA is a proposal for a minimally instrumented, large-volume surface detector near ATLAS or CMS. It would search for neutral LLPs produced in HL-LHC collisions by reconstructing displaced vertices (DVs) in a low-background environment, extending the sensitivity of the main detectors by orders of magnitude in the long-lifetime regime. We study the LLP physics opportunities afforded by a MATHUSLA-like detector at the HL-LHC, assuming backgrounds can be rejected as expected. We develop a model-independent approach to describe the sensitivity of MATHUSLA to BSM LLP signals, and compare it to DV and missing energy searches at ATLAS or CMS. We then explore the BSM motivations for LLPs in considerable detail, presenting a large number of new sensitivity studies. While our discussion is especially oriented towards the long-lifetime regime at MATHUSLA, this survey underlines the importance of a varied LLP search program at the LHC in general. By synthesizing these results into a general discussion of the top–down and bottom-up motivations for LLP searches, it is our aim to demonstrate the exceptional strength and breadth of the physics case for the construction of the MATHUSLA detector.We examine the theoretical motivations for long-lived particle (LLP) signals at the LHC in a comprehensive survey of Standard Model (SM) extensions. LLPs are a common prediction of a wide range of theories that address unsolved fundamental mysteries such as naturalness, dark matter, baryogenesis and neutrino masses, and represent a natural and generic possibility for physics beyond the SM (BSM). In most cases the LLP lifetime can be treated as a free parameter from the $\mu$m scale up to the Big Bang Nucleosynthesis limit of $\sim 10^7$m. Neutral LLPs with lifetimes above $\sim$ 100m are particularly difficult to probe, as the sensitivity of the LHC main detectors is limited by challenging backgrounds, triggers, and small acceptances. MATHUSLA is a proposal for a minimally instrumented, large-volume surface detector near ATLAS or CMS. It would search for neutral LLPs produced in HL-LHC collisions by reconstructing displaced vertices (DVs) in a low-background environment, extending the sensitivity of the main detectors by orders of magnitude in the long-lifetime regime. In this white paper we study the LLP physics opportunities afforded by a MATHUSLA-like detector at the HL-LHC. We develop a model-independent approach to describe the sensitivity of MATHUSLA to BSM LLP signals, and compare it to DV and missing energy searches at ATLAS or CMS. We then explore the BSM motivations for LLPs in considerable detail, presenting a large number of new sensitivity studies. While our discussion is especially oriented towards the long-lifetime regime at MATHUSLA, this survey underlines the importance of a varied LLP search program at the LHC in general. By synthesizing these results into a general discussion of the top-down and bottom-up motivations for LLP searches, it is our aim to demonstrate the exceptional strength and breadth of the physics case for the construction of the MATHUSLA detector.arXiv:1806.07396FERMILAB-PUB-18-264-Toai:cds.cern.ch:26270542018-06-19 |
| spellingShingle | hep-ex Particle Physics - Experiment hep-ph Particle Physics - Phenomenology Curtin, David Drewes, Marco McCullough, Matthew Meade, Patrick Mohapatra, Rabindra N. Shelton, Jessie Shuve, Brian Accomando, Elena Alpigiani, Cristiano Antusch, Stefan Arteaga-Velázquez, Juan Carlos Batell, Brian Bauer, Martin Blinov, Nikita Caballero-Mora, Karen Salomé Chang, Jae Hyeok Chun, Eung Jin Co, Raymond T. Cohen, Timothy Cox, Peter Craig, Nathaniel Csáki, Csaba Cui, Yanou D'Eramo, Francesco Delle Rose, Luigi Bhupal Dev, P.S. Dienes, Keith R. Dror, Jeff A. Essig, Rouven Evans, Jared A. Evans, Jason L. Tellez, Arturo Fernández Fischer, Oliver Flacke, Thomas Fradette, Anthony Frugiuele, Claudia Fuchs, Elina Gherghetta, Tony Giudice, Gian F. Gorbunov, Dmitry Gupta, Rick S. Hagedorn, Claudia Hall, Lawrence J. Harris, Philip Helo, Juan Carlos Hirsch, Martin Hochberg, Yonit Hook, Anson Ibarra, Alejandro Ipek, Seyda Jung, Sunghoon Knapen, Simon Kuflik, Eric Liu, Zhen Lombardo, Salvator Lubatti, H.J. McKeen, David Molinaro, Emiliano Moretti, Stefano Nagata, Natsumi Neubert, Matthias No, Jose Miguel Olaiya, Emmanuel Perez, Gilad Peskin, Michael E. Pinner, David Pospelov, Maxim Reece, Matthew Robinson, Dean J. Cahuantzi, Mario Rodríguez Santonico, Rinaldo Schlaffer, Matthias Shepherd-Themistocleous, Claire H. Spray, Andrew Stolarski, Daniel Subieta Vasquez, Martin A. Sundrum, Raman Thamm, Andrea Thomas, Brooks Tsai, Yuhsin Tweedie, Brock West, Stephen M. Young, Charles Yu, Felix Zaldivar, Bryan Zhang, Yongchao Zurek, Kathryn Zurita, José Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case |
| title | Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case |
| title_full | Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case |
| title_fullStr | Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case |
| title_full_unstemmed | Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case |
| title_short | Long-Lived Particles at the Energy Frontier: The MATHUSLA Physics Case |
| title_sort | long-lived particles at the energy frontier: the mathusla physics case |
| topic | hep-ex Particle Physics - Experiment hep-ph Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1088/1361-6633/ab28d6 http://cds.cern.ch/record/2627054 |
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