Measuring the stability of fundamental constants with a network of clocks

The detection of variations of fundamental constants of the Standard Model would provide us with compelling evidence of new physics, and could lift the veil on the nature of dark matter and dark energy. In this work, we discuss how a network of atomic and molecular clocks can be used to look for suc...

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Published in	EPJ quantum technology Vol. 9; no. 1
Main Authors	Barontini, G., Blackburn, L., Boyer, V., Butuc-Mayer, F., Calmet, X., Crespo López-Urrutia, J. R., Curtis, E. A., Darquié, B., Dunningham, J., Fitch, N. J., Forgan, E. M., Georgiou, K., Gill, P., Godun, R. M., Goldwin, J., Guarrera, V., Harwood, A. C., Hill, I. R., Hendricks, R. J., Jeong, M., Johnson, M. Y. H., Keller, M., Kozhiparambil Sajith, L. P., Kuipers, F., Margolis, H. S., Mayo, C., Newman, P., Parsons, A. O., Prokhorov, L., Robertson, B. I., Rodewald, J., Safronova, M. S., Sauer, B. E., Schioppo, M., Sherrill, N., Stadnik, Y. V., Szymaniec, K., Tarbutt, M. R., Thompson, R. C., Tofful, A., Tunesi, J., Vecchio, A., Wang, Y., Worm, S.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2022 Springer Nature B.V EDP Sciences
Subjects	Astrophysics Atomic clocks Atomic Physics Chemical Physics Cosmology and Extra-Galactic Astrophysics Dark energy Dark matter General Relativity and Quantum Cosmology High Energy Physics - Experiment High Energy Physics - Phenomenology Nanotechnology and Microengineering Physics Physics and Astronomy Quantum Information Technology Quantum Physics Sciences of the Universe Sensitivity enhancement Spintronics Stability Grand unification theories Dark matter Solitons Variations of fundamental constants Dark energy Atomic and molecular clocks Networks of quantum sensors Quantum gravity Physics beyond the Standard Model Violation of fundamental symmetries physics beyond the Standard Model violation of fundamental symmetries grand unification theories quantum gravity solitons dark energy dark matter
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Abstract	The detection of variations of fundamental constants of the Standard Model would provide us with compelling evidence of new physics, and could lift the veil on the nature of dark matter and dark energy. In this work, we discuss how a network of atomic and molecular clocks can be used to look for such variations with unprecedented sensitivity over a wide range of time scales. This is precisely the goal of the recently launched QSNET project: A network of clocks for measuring the stability of fundamental constants. QSNET will include state-of-the-art atomic clocks, but will also develop next-generation molecular and highly charged ion clocks with enhanced sensitivity to variations of fundamental constants. We describe the technological and scientific aims of QSNET and evaluate its expected performance. We show that in the range of parameters probed by QSNET, either we will discover new physics, or we will impose new constraints on violations of fundamental symmetries and a range of theories beyond the Standard Model, including dark matter and dark energy models.
AbstractList	The detection of variations of fundamental constants of the Standard Model would provide us with compelling evidence of new physics, and could lift the veil on the nature of dark matter and dark energy. In this work, we discuss how a network of atomic and molecular clocks can be used to look for such variations with unprecedented sensitivity over a wide range of time scales. This is precisely the goal of the recently launched QSNET project: A network of clocks for measuring the stability of fundamental constants. QSNET will include state-of-the-art atomic clocks, but will also develop next-generation molecular and highly charged ion clocks with enhanced sensitivity to variations of fundamental constants. We describe the technological and scientific aims of QSNET and evaluate its expected performance. We show that in the range of parameters probed by QSNET, either we will discover new physics, or we will impose new constraints on violations of fundamental symmetries and a range of theories beyond the Standard Model, including dark matter and dark energy models.
ArticleNumber	12
Author	Johnson, M. Y. H. Keller, M. Calmet, X. Jeong, M. Tunesi, J. Guarrera, V. Barontini, G. Kozhiparambil Sajith, L. P. Thompson, R. C. Godun, R. M. Newman, P. Stadnik, Y. V. Dunningham, J. Crespo López-Urrutia, J. R. Robertson, B. I. Worm, S. Parsons, A. O. Tofful, A. Prokhorov, L. Sherrill, N. Goldwin, J. Schioppo, M. Kuipers, F. Margolis, H. S. Safronova, M. S. Tarbutt, M. R. Forgan, E. M. Harwood, A. C. Darquié, B. Georgiou, K. Gill, P. Boyer, V. Mayo, C. Sauer, B. E. Rodewald, J. Curtis, E. A. Hill, I. R. Butuc-Mayer, F. Szymaniec, K. Hendricks, R. J. Wang, Y. Fitch, N. J. Blackburn, L. Vecchio, A.
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Issue	1
Keywords	Grand unification theories Dark matter Solitons Variations of fundamental constants Dark energy Atomic and molecular clocks Networks of quantum sensors Quantum gravity Physics beyond the Standard Model Violation of fundamental symmetries physics beyond the Standard Model violation of fundamental symmetries grand unification theories quantum gravity solitons dark energy dark matter
Language	English
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PublicationTitle	EPJ quantum technology
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Publisher	Springer Berlin Heidelberg Springer Nature B.V EDP Sciences
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Snippet	The detection of variations of fundamental constants of the Standard Model would provide us with compelling evidence of new physics, and could lift the veil on...
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SubjectTerms	Astrophysics Atomic clocks Atomic Physics Chemical Physics Cosmology and Extra-Galactic Astrophysics Dark energy Dark matter General Relativity and Quantum Cosmology High Energy Physics - Experiment High Energy Physics - Phenomenology Nanotechnology and Microengineering Physics Physics and Astronomy Quantum Information Technology Quantum Physics Sciences of the Universe Sensitivity enhancement Spintronics Stability
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Title	Measuring the stability of fundamental constants with a network of clocks
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