An Update to the Letter of Intent for MATHUSLA: Search for Long-Lived   Particles at the HL-LHC

Cristiano Alpigiani; Juan Carlos Arteaga-Vel\'azquez; Austin Ball,; Liron Barak; Jared Barron; Brian Batell; James Beacham; Yan Benhammo; Karen; Salom\'e Caballero-Mora; Paolo Camarri; Roberto Cardarelli; John Paul Chou,; Wentao Cui; David Curtin; Miriam Diamond; Keith R. Dienes; Liam Andrew; Dougherty; Giuseppe Di Sciascio; Marco Drewes; Erez Etzion; Rouven Essig,; Jared Evans; Arturo Fern\'andez T\'ellez; Oliver Fischer; Jim Freeman,; Jonathan Gall; Ali Garabaglu; Stefano Giagu; Stephen Elliott Greenberg,; Bhawna Gomber; Roberto Guida; Andy Haas; Yuekun Heng; Shih-Chieh Hsu,; Giuseppe Iaselli; Ken Johns; Audrey Kvam; Dragoslav Lazic; Liang Li; Barbara; Liberti; Zhen Liu; Henry Lubatti; Lillian Luo; Giovanni Marsella; Mario; Iv\'an Mart\'inez Hern\'andez; Matthew McCullough; David McKeen; Patrick; Meade; Gilad Mizrachi; O.G. Morales-Olivares; David Morrissey; Meny Raviv; Moshe; Antonio Policicchio; Mason Proffitt; Dennis Cazar Ramirez; Matthew; Reece; Steven H. Robertson; Mario Rodr\'iguez-Cahuantzi; Albert de Roeck,; Amber Roepe; Joe Rothberg; James John Russell; Heather Russell; Rinaldo; Santonico; Marco Schioppa; Jessie Shelton; Brian Shuve; Yiftah Silver; Luigi; Di Stante; Daniel Stolarski; Mike Strauss; David Strom; John Stupak; Martin; A. Subieta Vasquez; Sanjay Kumar Swain; Guillermo Tejeda Mu\~noz; Steffie Ann; Thayil; Brooks Thomas; Yuhsin Tsai; Emma Torro; Gordon Watts; Charles Young,; Jose Zurita

arXiv:2009.01693·physics.ins-det·September 4, 2020·6 cites

An Update to the Letter of Intent for MATHUSLA: Search for Long-Lived Particles at the HL-LHC

Cristiano Alpigiani, Juan Carlos Arteaga-Vel\'azquez, Austin Ball,, Liron Barak, Jared Barron, Brian Batell, James Beacham, Yan Benhammo, Karen, Salom\'e Caballero-Mora, Paolo Camarri, Roberto Cardarelli, John Paul Chou,, Wentao Cui, David Curtin, Miriam Diamond, Keith R. Dienes

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TL;DR

This paper updates the design and site of the MATHUSLA detector for the HL-LHC, improving its physics reach and operational robustness based on recent engineering, background studies, and technological advancements.

Contribution

It provides an updated design, site, and technological improvements for the MATHUSLA detector, enhancing its physics potential and operational simplicity.

Findings

01

Site closer to CMS IP improves performance for small cτ

02

Detector size and technology optimized for cost and robustness

03

Background understanding significantly advanced through new simulations

Abstract

We report on recent progress in the design of the proposed MATHUSLA Long Lived Particle (LLP) detector for the HL-LHC, updating the information in the original Letter of Intent (LoI), see CDS:LHCC-I-031, arXiv:1811.00927. A suitable site has been identified at LHC Point 5 that is closer to the CMS Interaction Point (IP) than assumed in the LoI. The decay volume has been increased from 20 m to 25 m in height. Engineering studies have been made in order to locate much of the decay volume below ground, bringing the detector even closer to the IP. With these changes, a 100 m x 100 m detector has the same physics reach for large c $τ$ as the 200 m x 200 m detector described in the LoI and other studies. The performance for small c $τ$ is improved because of the proximity to the IP. Detector technology has also evolved while retaining the strip-like sensor geometry in Resistive Plate…

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Taxonomy

TopicsParticle Detector Development and Performance · Radiation Detection and Scintillator Technologies · Particle physics theoretical and experimental studies