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Wigner phase of photonic helicity states in the spacetime of the Earth

Wigner phase of photonic helicity states in the spacetime of the Earth
Wigner phase of photonic helicity states in the spacetime of the Earth
We study relativistic effects on polarised photons that travel in a curved spacetime. As a concrete application, we consider photons in the gravitational field of the Earth, on a closed path that starts at a terrestial laboratory, is reflected at one or more satellites, and finally returns to the laboratory. We find that the photons acquire a non-trivial Wigner phase already when the gravitational field is static, such as the Schwarzschild spacetime, where previous studies have found a trivial Wigner phase for closed photon paths. A gauge-invariant description of this nontrivial Wigner phase remains an open question, to be resolved before the formalism can provide predictions for experiments.
Quantum Physics, General Relativity and Quantum Cosmology
Kohlrus, Jan
2ada319b-0cfa-4792-8c8d-294cffd645ac
Louko, Jorma
60212164-bfdc-43f2-91b7-129b055cb5d5
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
Bruschi, David Edward
6b839b6e-2a84-428a-bb60-0a76397228df
Kohlrus, Jan
2ada319b-0cfa-4792-8c8d-294cffd645ac
Louko, Jorma
60212164-bfdc-43f2-91b7-129b055cb5d5
Fuentes, Ivette
c6d65a4c-feac-44c1-9097-e0f6a9e0cf44
Bruschi, David Edward
6b839b6e-2a84-428a-bb60-0a76397228df

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Abstract

We study relativistic effects on polarised photons that travel in a curved spacetime. As a concrete application, we consider photons in the gravitational field of the Earth, on a closed path that starts at a terrestial laboratory, is reflected at one or more satellites, and finally returns to the laboratory. We find that the photons acquire a non-trivial Wigner phase already when the gravitational field is static, such as the Schwarzschild spacetime, where previous studies have found a trivial Wigner phase for closed photon paths. A gauge-invariant description of this nontrivial Wigner phase remains an open question, to be resolved before the formalism can provide predictions for experiments.

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Published date: 1 October 2018
Related URLs:
Keywords: Quantum Physics, General Relativity and Quantum Cosmology

Identifiers

Local EPrints ID: 477367
URI: http://eprints.soton.ac.uk/id/eprint/477367
PURE UUID: 749de9ad-0ab9-4ae4-8068-c69805892a96

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Date deposited: 05 Jun 2023 16:44
Last modified: 17 Mar 2024 00:36

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Contributors

Author: Jan Kohlrus
Author: Jorma Louko
Author: Ivette Fuentes
Author: David Edward Bruschi

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