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Quantum interferometric visibility as a witness of general relativistic proper time

Author

Listed:
  • Magdalena Zych

    (Faculty of Physics, University of Vienna)

  • Fabio Costa

    (Faculty of Physics, University of Vienna)

  • Igor Pikovski

    (Faculty of Physics, University of Vienna)

  • Časlav Brukner

    (Faculty of Physics, University of Vienna
    Institute for Quantum Optics and Quantum Information, Austrian Academy of Sciences)

Abstract

Current attempts to probe general relativistic effects in quantum mechanics focus on precision measurements of phase shifts in matter–wave interferometry. Yet, phase shifts can always be explained as arising because of an Aharonov–Bohm effect, where a particle in a flat space–time is subject to an effective potential. Here we propose a quantum effect that cannot be explained without the general relativistic notion of proper time. We consider interference of a 'clock'—a particle with evolving internal degrees of freedom—that will not only display a phase shift, but also reduce the visibility of the interference pattern. According to general relativity, proper time flows at different rates in different regions of space–time. Therefore, because of quantum complementarity, the visibility will drop to the extent to which the path information becomes available from reading out the proper time from the 'clock'. Such a gravitationally induced decoherence would provide the first test of the genuine general relativistic notion of proper time in quantum mechanics.

Suggested Citation

  • Magdalena Zych & Fabio Costa & Igor Pikovski & Časlav Brukner, 2011. "Quantum interferometric visibility as a witness of general relativistic proper time," Nature Communications, Nature, vol. 2(1), pages 1-7, September.
  • Handle: RePEc:nat:natcom:v:2:y:2011:i:1:d:10.1038_ncomms1498
    DOI: 10.1038/ncomms1498
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    Cited by:

    1. Xin Zheng & Jonathan Dolde & Matthew C. Cambria & Hong Ming Lim & Shimon Kolkowitz, 2023. "A lab-based test of the gravitational redshift with a miniature clock network," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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