Searching for New Physics with DarkLight at the ARIEL Electron-Linac

The DarkLight Collaboration,E. Cline, R. Corliss,J. C. Bernauer,R. Alarcon,R. Baartman,S. Benson, J. Bessuille, D. Ciarniello, A. Christopher, A. Colon,W. Deconinck,K. Dehmelt, A. Deshpande,J. Dilling, D. H. Dongwi,P. Fisher,T. Gautam,M. Gericke, D. Hasell, M. Hasinoff, E. Ihloff,R. Johnston, R. Kanungo, J. Kelsey,O. Kester,M. Kohl,I. Korover, R. Laxdal,S. Lee,X. Li, C. Ma,A. Mahon,J. W. Martin,R. Milner,M. Moore,P. Moran, J. Nazeer, K. Pachal,T. Patel,T. Planche,M. Rathnayake,M. Suresh,C. Vidal,Y. Wang, S. Yen

arxiv（2022）

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摘要

The search for a dark photon holds considerable interest in the physics community. Such a force carrier would begin to illuminate the dark sector. Many experiments have searched for such a particle, but so far it has proven elusive. In recent years the concept of a low mass dark photon has gained popularity in the physics community. Of particular recent interest is the $^8$Be and $^4$He anomaly, which could be explained by a new fifth force carrier with a mass of 17 MeV/$c^2$. The proposed DarkLight experiment would search for this potential low mass force carrier at ARIEL in the 10-20 MeV e$^+$e$^-$ invariant mass range. This proceeding will focus on the experimental design and physics case of the DarkLight experiment.

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关键词

darklight,new physics,electron-linac

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