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Gravitational Redshift Tests with Atomic Clocks and Atom Interferometers

Di Pumpo, Fabio ; Ufrecht, Christian ; Friedrich, Alexander ; Giese, Enno ; Schleich, Wolfgang P. ; Unruh, William G. (2024)
Gravitational Redshift Tests with Atomic Clocks and Atom Interferometers.
In: PRX Quantum, 2021, 2 (4)
doi: 10.26083/tuprints-00027037
Article, Secondary publication, Publisher's Version

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Item Type: Article
Type of entry: Secondary publication
Title: Gravitational Redshift Tests with Atomic Clocks and Atom Interferometers
Language: English
Date: 1 August 2024
Place of Publication: Darmstadt
Year of primary publication: November 2021
Place of primary publication: College Park, MD
Publisher: American Physical Society
Journal or Publication Title: PRX Quantum
Volume of the journal: 2
Issue Number: 4
Collation: 23 Seiten
DOI: 10.26083/tuprints-00027037
Corresponding Links:
Origin: Secondary publication service
Abstract:

Atomic interference experiments can probe the gravitational redshift via the internal energy splitting of atoms and thus give direct access to test the universality of the coupling between matter-energy and gravity at different spacetime points. By including possible violations of the equivalence principle in a fully quantized treatment of all atomic degrees of freedom, we characterize how the sensitivity to gravitational redshift violations arises in atomic clocks and atom interferometers, as well as their underlying limitations. Specifically, we show that: (i) Contributions beyond linear order to trapping potentials lead to such a sensitivity of trapped atomic clocks. (ii) Bragg-type interferometers, even with a superposition of internal states, with state-independent, linear interaction potentials are at first insensitive to gravitational redshift tests. However, modified configurations, for example by relaunching the atoms, can mimic such tests under certain conditions and may constitute a competitive alternative. (iii) Guided atom interferometers are comparable to atomic clocks. (iv) Internal transitions lead to state-dependent interaction potentials through which light-pulse atom interferometers can become sensitive to gravitational redshift violations.

Status: Publisher's Version
URN: urn:nbn:de:tuda-tuprints-270378
Classification DDC: 500 Science and mathematics > 530 Physics
Divisions: 05 Department of Physics > Institute of Applied Physics
05 Department of Physics > Institute of Applied Physics > Theoretical Quantum Optics
Date Deposited: 01 Aug 2024 12:55
Last Modified: 26 Sep 2024 14:30
URI: https://tuprints.ulb.tu-darmstadt.de/id/eprint/27037
PPN: 521685206
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