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arxiv: 2410.19601 · v1 · pith:CCYHAPLHnew · submitted 2024-10-25 · 🪐 quant-ph · gr-qc

The Bose-Marletto-Vedral experiment with nanodiamond interferometers: an insight on entanglement detection

classification 🪐 quant-ph gr-qc
keywords entanglementproposeddetectionexperimentalnano-diamondsanalysearxivbasis
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Recently, it has been proposed a new method [arXiv:2405.21029] to detect quantum gravity effects, based on generating gravitational entanglement between two nano-diamonds with Nitrogen-Vacancy defects, in a magnetically trapped configuration. Here we analyse in detail the proposed experimental setup, with a particular focus on implementing the detection of the gravitationally-induced entanglement using an optical readout based on measuring the position of the nano-diamonds and its complementary basis. We also summarise some of the key theoretical and experimental ideas on which this proposed scheme is based.

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  1. Demonstration of quantum random number generation using nitrogen vacancy centres

    quant-ph 2026-04 conditional novelty 5.0

    QRNG using photon arrival times from NV centers in nanodiamonds achieves rates from 0.173 to 4.77 Mbits/s with min-entropy close to 1 and passes ENT/NIST tests without post-processing.