arXiv:1702.01720 Abstract | arXiv Analytics

arXiv:1702.01720 [quant-ph]Abstract References Reviews Resources

Quantum detection of wormholes

Published 2017-02-06Version 1

We show how to use quantum metrology to detect a wormhole. A coherent state of the electromagnetic field experiences a phase shift with a slight dependence on the throat radius of a possible distant wormhole. We show that this tiny correction is, in principle, detectable by homodyne measurements after long propagation lengths for a wide range of throat radii and distances to the wormhole, even if the detection takes place very far away from the throat, where the spacetime is very close to a flat geometry. We use realistic parameters from state-of-the-art long-baseline laser interferometry, both Earth-based and space-borne. The scheme is, in principle, robust to optical losses and initial mixedness.

Comments: 5 pages, 4 figures

Categories: quant-ph, gr-qc

Keywords: quantum detection, throat radius, state-of-the-art long-baseline laser interferometry, long propagation lengths, electromagnetic field experiences

Related articles: Most relevant | Search more

arXiv:quant-ph/0301159 (Published 2003-01-29)

Some methods for solution of quantum detection and measurement problems

Boris A. Grishanin

arXiv:2012.07677 [quant-ph] (Published 2020-12-14, updated 2021-08-12)

Neural-network-based parameter estimation for quantum detection

Yue Ban, Javier Echanobe, Yongcheng Ding, Ricardo Puebla, Jorge Casanova

arXiv:quant-ph/0005132 (Published 2000-05-31, updated 2000-08-29)

On Quantum Detection and the Square-Root Measurement