Ramsey fringes in atomic interferometry: Measurability of the influence of space-time curvature

Jürgen Audretsch and Karl-Peter Marzlin
Phys. Rev. A 50, 2080 – Published 1 September 1994
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Abstract

The influence of space-time curvature on quantum matter which can be theoretically described by covariant wave equations has not been experimentally established yet. In this paper we analyze in detail the suitability of the Ramsey atom beam interferometer for the measurement of the phase shift caused by the Riemannian curvature of the Earth or alternatively of two parallel oriented lead blocks. It appears that for the lead blocks the detection should be possible with realistic modifications of existing devices within the near future. For the Earth’s gravitational field the experimental difficulties are too big. The paper is divided into two parts. The first one is concerned with the derivation of general relativistic correction terms to the Pauli equation starting from the fully covariant Dirac equation and their physical interpretation. The inertial effects of acceleration and rotation are included. The calculation makes use of Fermi coordinates. In the second part we calculate the shift of the Ramsey fringes for the two different sources of curvature and examine various possibilities to enlarge the sensitivity of the apparatus to space-time curvature. Since the two parts may be more or less interesting for physicists with different research fields they are written in such a way that each one may be read without much reference to the other one.

  • Received 21 April 1994

DOI:https://doi.org/10.1103/PhysRevA.50.2080

©1994 American Physical Society

Authors & Affiliations

Jürgen Audretsch and Karl-Peter Marzlin

  • Fakultät für Physik der Universität Konstanz, Postfach 5560 M674, D-78434 Konstanz, Germany

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Issue

Vol. 50, Iss. 3 — September 1994

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