Search for transient variations of the fine structure constant and dark matter using fiber-linked optical atomic clocks
- verfasst von
- B. M. Roberts, P. Delva, A. Al-Masoudi, A. Amy-Klein, C. Bærentsen, C. F.A. Baynham, E. Benkler, S. Bilicki, S. Bize, W. Bowden, J. Calvert, V. Cambier, E. Cantin, E. A. Curtis, S. Dörscher, M. Favier, F. Frank, P. Gill, R. M. Godun, G. Grosche, C. Guo, A. Hees, I. R. Hill, R. Hobson, N. Huntemann, J. Kronjäger, S. Koke, A. Kuhl, R. Lange, T. Legero, B. Lipphardt, C. Lisdat, J. Lodewyck, O. Lopez, H. S. Margolis, H. Álvarez-Martínez, F. Meynadier, F. Ozimek, E. Peik, P. E. Pottie, N. Quintin, C. Sanner, L. De Sarlo, M. Schioppo, R. Schwarz, A. Silva, U. Sterr, Chr Tamm, R. Le Targat, P. Tuckey, G. Vallet, T. Waterholter, D. Xu, P. Wolf
- Abstract
We search for transient variations of the fine structure constant using data from a European network of fiber-linked optical atomic clocks. By searching for coherent variations in the recorded clock frequency comparisons across the network, we significantly improve the constraints on transient variations of the fine structure constant. For example, we constrain the variation to5 × 10-17 for transients of duration 103 s. This analysis also presents a possibility to search for dark matter, the mysterious substance hypothesised to explain galaxy dynamics and other astrophysical phenomena that is thought to dominate the matter density of the universe. At the current sensitivity level, we find no evidence for dark matter in the form of topological defects (or, more generally, any macroscopic objects), and we thus place constraints on certain potential couplings between the dark matter and standard model particles, substantially improving upon the existing constraints, particularly for large (104 km) objects.
- Externe Organisation(en)
-
Observatoire de Paris (OBSPARIS)
University of Queensland
Physikalisch-Technische Bundesanstalt (PTB)
Universite Paris 13
National Physical Laboratory
Real Instituto y Observatorio de la Armada (ROA)
Internationales Büro für Maß und Gewicht (BIPM)
Réseau National de télécommunications pour la Technologie l’Enseignement et la Recherche (RENATER)
- Typ
- Artikel
- Journal
- New journal of physics
- Band
- 22
- ISSN
- 1367-2630
- Publikationsdatum
- 09.2020
- Publikationsstatus
- Veröffentlicht
- Peer-reviewed
- Ja
- ASJC Scopus Sachgebiete
- Physik und Astronomie (insg.)
- Elektronische Version(en)
-
https://doi.org/10.1088/1367-2630/abaace (Zugang:
Offen)