Nuclear $\beta$ decay as a probe for physics beyond the Standard Model
M. Brodeur,N. Buzinsky,M. A. Caprio,V. Cirigliano,J. A. Clark,P. J. Fasano,J. A. Formaggio,A. T. Gallant,A. Garcia,S. Gandolfi,S. Gardner,A. Glick-Magid,L. Hayen,H. Hergert,J. D. Holt,M. Horoi,M. Y. Huang,K. D. Launey,K. G. Leach,B. Longfellow,A. Lovato,A. E. McCoy,D. Melconian,P. Mohanmurthy,D. C. Moore,P. Mueller,E. Mereghetti,W. Mittig,P. Navratil,S. Pastore,M. Piarulli,D. Puentes,B. C. Rasco,M. Redshaw,G. H. Sargsyan,G. Savard,N. D. Scielzo,C. -Y. Seng,A. Shindler,S. R. Stroberg,J. Surbrook,A. Walker-Loud,R. B. Wiringa,C. Wrede,A. R. Young,V. Zelevinsky
arxiv(2023)
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摘要
This white paper was submitted to the 2022 Fundamental Symmetries, Neutrons, and Neutrinos (FSNN) Town Hall Meeting in preparation for the next NSAC Long Range Plan. We advocate to support current and future theoretical and experimental searches for physics beyond the Standard Model using nuclear $\beta$ decay.