QSNET, a network of clocks for measuring the stability of fundamental constants

Authors :: Barontini, G.
Boyer, V.
Calmet, X.
Fitch, N. J.
Forgan, E. M.
Godun, R. M.
Goldwin, J.
Guarrera, V.
Hill, I. R.
Jeong, M.
Keller, M.
Kuipers, F.
Margolis, H. S.
Newman, P.
Prokhorov, L.
Rodewald, J.
Sauer, B. E.
Schioppo, M.
Sherrill, N.
Tarbutt, M. R.
Vecchio, A.
Worm, S.
Barontini, G.
Boyer, V.
Calmet, X.
Fitch, N. J.
Forgan, E. M.
Godun, R. M.
Goldwin, J.
Guarrera, V.
Hill, I. R.
Jeong, M.
Keller, M.
Kuipers, F.
Margolis, H. S.
Newman, P.
Prokhorov, L.
Rodewald, J.
Sauer, B. E.
Schioppo, M.
Sherrill, N.
Tarbutt, M. R.
Vecchio, A.
Worm, S.
Publication Year :: 2021
Abstract: The QSNET consortium is building a UK network of next-generation atomic and molecular clocks that will achieve unprecedented sensitivity in testing variations of the fine structure constant, $\alpha$, and the electron-to-proton mass ratio, $\mu$. This in turn will provide more stringent constraints on a wide range of fundamental and phenomenological theories beyond the Standard Model and on dark matter models.

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