FACET: a new long-lived particle detector in the very forward region of the CMS experiment

被引:0
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作者
S. Cerci
D. Sunar Cerci
D. Lazic
G. Landsberg
F. Cerutti
M. Sabaté-Gilarte
M. G. Albrow
J. Berryhill
D. R. Green
J. Hirschauer
S. Kulkarni
J. E. Brücken
L. Emediato
A. Mestvirishvili
J. Nachtman
Y. Onel
A. Penzo
O. Aydilek
B. Hacisahinoglu
S. Ozkorucuklu
H. Sert
C. Simsek
C. Zorbilmez
I. Hos
N. Hadley
A. Skuja
M. Du
R. Fang
Z. Liu
B. Isildak
V. Q. Tran
机构
[1] Adiyaman University,Department of Physics
[2] Boston University,Physics Department
[3] Brown University,Department of Physics
[4] CERN,Institute of Physics, NAWI Graz
[5] Fermi National Accelerator Laboratory,Helsinki Institute of Physics
[6] University of Graz,Department of Physics and Astronomy
[7] University of Helsinki,Physics Department
[8] University of Iowa,Department of Engineering Sciences
[9] Istanbul University,Department of Physics
[10] Istanbul University-Cerrahpasa,Department of Physics
[11] University of Maryland,Department of Natural and Mathematical Sciences
[12] Nanjing University,Tsung Dao Lee Institute
[13] Ozyegin University,Faculty of Fundamental Sciences
[14] Shanghai Jiao Tong University,undefined
[15] PHENIKAA University,undefined
来源
Journal of High Energy Physics | / 2022卷
关键词
Beyond Standard Model; Exotics; Hadron-Hadron Scattering; Dark Matter; Particle and Resonance Production;
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摘要
We describe a proposal to add a set of very forward detectors to the CMS experiment for the high-luminosity era of the Large Hadron Collider to search for beyond the standard model long-lived particles, such as dark photons, heavy neutral leptons, axion-like particles, and dark Higgs bosons. The proposed subsystem is called FACET for Forward-Aperture CMS ExTension, and will be sensitive to any particles that can penetrate at least 50 m of magnetized iron and decay in an 18 m long, 1 m diameter vacuum pipe. The decay products will be measured in detectors using identical technology to the planned CMS Phase-2 upgrade.
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