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Vacuum Lightcone Fluctuations in a Dielectric

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arxiv 1408.6805 v1 pith:2NB5J4F7 submitted 2014-08-28 hep-th gr-qcquant-ph

Vacuum Lightcone Fluctuations in a Dielectric

classification hep-th gr-qcquant-ph
keywords fluctuationsvacuummodelmaterialorderpulseslabelectric
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A model for observable effects of electromagnetic vacuum fluctuations is presented. The model involves a probe pulse which traverses a slab of nonlinear optical material with a nonzero second order polarizability. We argue that the pulse interacts with the ambient vacuum fluctuations of other modes of the quantized electric field, and these vacuum fluctuations cause variations in the flight time of the pulse through the material. The geometry of the slab of material defines a sampling function for the quantized electric field, which in turn determines that vacuum modes whose wavelengths are of the order of the thickness of the slab give the dominant contribution. Some numerical estimates are made, which indicate that fractional fluctuations in flight time of the order of $10^{-9}$ are possible in realistic situations. The model presented here is both an illustration of a physical effect of vacuum fluctuations, and an analog model for the lightcone fluctuations predicted by quantum gravity.

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