Indirect detection of gravitons through quantum entanglement

Sugumi Kanno; Jiro Soda; Junsei Tokuda

doi:10.1103/PhysRevD.104.083516

Indirect detection of gravitons through quantum entanglement

Sugumi Kanno, Jiro Soda, Junsei Tokuda

Experimental Particle Physics

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

We propose an experiment that the entanglement between two macroscopic mirrors suspended at the end of an equal-arm interferometer is destroyed by the noise of gravitons through bremsstrahlung. By calculating the correlation function of the noise, we obtain the decoherence time from the decoherence functional. We estimate that the decoherence time induced by the noise of gravitons in squeezed states stemming from inflation is approximately 20 s for 40 km long arms and 40 kg mirrors. Our analysis shows that observation of the decoherence time of quantum entanglement has the potential to detect gravitons indirectly. This indirect detection of gravitons would give strong evidence of quantum gravity.

Original language	English
Article number	A21
Journal	Physical Review D
Volume	104
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevD.104.083516
Publication status	Published - Oct 15 2021

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1103/PhysRevD.104.083516

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abstract = "We propose an experiment that the entanglement between two macroscopic mirrors suspended at the end of an equal-arm interferometer is destroyed by the noise of gravitons through bremsstrahlung. By calculating the correlation function of the noise, we obtain the decoherence time from the decoherence functional. We estimate that the decoherence time induced by the noise of gravitons in squeezed states stemming from inflation is approximately 20 s for 40 km long arms and 40 kg mirrors. Our analysis shows that observation of the decoherence time of quantum entanglement has the potential to detect gravitons indirectly. This indirect detection of gravitons would give strong evidence of quantum gravity.",

author = "Sugumi Kanno and Jiro Soda and Junsei Tokuda",

note = "Funding Information: We would like to thank Nobuyuki Matsumoto for useful discussion and suggestions. S. K. was supported by the Japan Society for the Promotion of Science (JSPS) KAKENHI Grant No. JP18H05862. J. S. was in part supported by JSPS KAKENHI Grants No. JP17H02894, No. JP17K18778, and No. JP20H01902. J. T. was supported by a JSPS Postdoctoral Fellowship, Grant No. 202000912. Publisher Copyright: {\textcopyright} 2021 American Physical Society.",

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AU - Kanno, Sugumi

AU - Soda, Jiro

AU - Tokuda, Junsei

N1 - Funding Information: We would like to thank Nobuyuki Matsumoto for useful discussion and suggestions. S. K. was supported by the Japan Society for the Promotion of Science (JSPS) KAKENHI Grant No. JP18H05862. J. S. was in part supported by JSPS KAKENHI Grants No. JP17H02894, No. JP17K18778, and No. JP20H01902. J. T. was supported by a JSPS Postdoctoral Fellowship, Grant No. 202000912. Publisher Copyright: © 2021 American Physical Society.

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N2 - We propose an experiment that the entanglement between two macroscopic mirrors suspended at the end of an equal-arm interferometer is destroyed by the noise of gravitons through bremsstrahlung. By calculating the correlation function of the noise, we obtain the decoherence time from the decoherence functional. We estimate that the decoherence time induced by the noise of gravitons in squeezed states stemming from inflation is approximately 20 s for 40 km long arms and 40 kg mirrors. Our analysis shows that observation of the decoherence time of quantum entanglement has the potential to detect gravitons indirectly. This indirect detection of gravitons would give strong evidence of quantum gravity.

AB - We propose an experiment that the entanglement between two macroscopic mirrors suspended at the end of an equal-arm interferometer is destroyed by the noise of gravitons through bremsstrahlung. By calculating the correlation function of the noise, we obtain the decoherence time from the decoherence functional. We estimate that the decoherence time induced by the noise of gravitons in squeezed states stemming from inflation is approximately 20 s for 40 km long arms and 40 kg mirrors. Our analysis shows that observation of the decoherence time of quantum entanglement has the potential to detect gravitons indirectly. This indirect detection of gravitons would give strong evidence of quantum gravity.

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Indirect detection of gravitons through quantum entanglement

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