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Quantum Algorithms
Controlling Photon Entanglement with Mechanical Rotation
arXiv
Authors: Marion Cromb, Sara Restuccia, Graham M. Gibson, Marko Toros, Miles J. Padgett, Daniele Faccio
Year
2022
Paper ID
58491
Status
Preprint
Abstract Read
~2 min
Abstract Words
160
Citations
N/A
Abstract
Understanding quantum mechanics within curved spacetime is a key stepping stone towards understanding the nature of spacetime itself. Whilst various theoretical models have been developed, it is significantly more challenging to carry out actual experiments that probe quantum mechanics in curved spacetime. By adding Sagnac interferometers into the arms of a Hong-Ou-Mandel (HOM) interferometer that is placed on a mechanically rotating platform, we show that non-inertial motion modifies the symmetry of an entangled biphoton state. As the platform rotation speed is increased, we observe that HOM interference dips transform into HOM interference peaks. This indicates that the photons pass from perfectly indistinguishable (bosonic behaviour), to perfectly distinguishable (fermionic behavior), therefore demonstrating a mechanism for how spacetime can affect quantum systems. The work is increasingly relevant in the real world as we move towards global satellite quantum communications, and paves the way for further fundamental research that could test the influence of non-inertial motion (and equivalently curved spacetime) on quantum entanglement.
Why This Paper Matters
- It adds a 2022 reference point for readers tracking recent quantum research.
- Understanding quantum mechanics within curved spacetime is a key stepping stone towards understanding the nature of spacetime itself.
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