@article{Barontini:2021,
author = {Barontini, G and Blackburn, L and Boyer, V and Butuc-Mayer, F and Calmet, X and Lopez-Urrutia, JRC and Curtis, EA and Darquie, B and Dunningham, J and Fitch, NJ and Forgan, EM and Georgiou, K and Gill, P and Godun, RM and Goldwin, J and Guarrera, V and Harwood, A and Hill, IR and Hendricks, RJ and Jeong, M and Johnson, MYH and Keller, M and Sajith, LPK and Kuipers, F and Margolis, HS and Mayo, C and Newman, P and Parsons, AO and Prokhorov, L and Robertson, BI and Rodewald, J and Safronova, MS and Sauer, BE and Schioppo, M and Sherrill, N and Stadnik, YV and Szymaniec, K and Tarbutt, MR and Thompson, RC and Tofful, A and Tunesi, J and Vecchio, A and Wang, Y and Worm, S},
title = {Measuring the stability of fundamental constants with a network of  clocks},
url = {http://arxiv.org/abs/2112.10618v1},
year = {2021}
}

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TY  - JOUR
AB  - The detection of variations of fundamental constants of the Standard Modelwould provide us with compelling evidence of new physics, and could lift theveil on the nature of dark matter and dark energy. In this work, we discuss howa network of atomic and molecular clocks can be used to look for suchvariations with unprecedented sensitivity over a wide range of time scales.This is precisely the goal of the recently launched QSNET project: A network ofclocks for measuring the stability of fundamental constants. QSNET will includestate-of-the-art atomic clocks, but will also develop next-generation molecularand highly charged ion clocks with enhanced sensitivity to variations offundamental constants. We describe the technological and scientific aims ofQSNET and evaluate its expected performance. We show that in the range ofparameters probed by QSNET, either we will discover new physics, or we willimpose new constraints on violations of fundamental symmetries and a range oftheories beyond the Standard Model, including dark matter and dark energymodels.
AU  - Barontini,G
AU  - Blackburn,L
AU  - Boyer,V
AU  - Butuc-Mayer,F
AU  - Calmet,X
AU  - Lopez-Urrutia,JRC
AU  - Curtis,EA
AU  - Darquie,B
AU  - Dunningham,J
AU  - Fitch,NJ
AU  - Forgan,EM
AU  - Georgiou,K
AU  - Gill,P
AU  - Godun,RM
AU  - Goldwin,J
AU  - Guarrera,V
AU  - Harwood,A
AU  - Hill,IR
AU  - Hendricks,RJ
AU  - Jeong,M
AU  - Johnson,MYH
AU  - Keller,M
AU  - Sajith,LPK
AU  - Kuipers,F
AU  - Margolis,HS
AU  - Mayo,C
AU  - Newman,P
AU  - Parsons,AO
AU  - Prokhorov,L
AU  - Robertson,BI
AU  - Rodewald,J
AU  - Safronova,MS
AU  - Sauer,BE
AU  - Schioppo,M
AU  - Sherrill,N
AU  - Stadnik,YV
AU  - Szymaniec,K
AU  - Tarbutt,MR
AU  - Thompson,RC
AU  - Tofful,A
AU  - Tunesi,J
AU  - Vecchio,A
AU  - Wang,Y
AU  - Worm,S
PY  - 2021///
TI  - Measuring the stability of fundamental constants with a network of  clocks
UR  - http://arxiv.org/abs/2112.10618v1
UR  - http://hdl.handle.net/10044/1/93614
ER  - 

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