Transition rates for an accelerated atom in quantum gravitational vacuum contain a^4 and a^2 terms absent from the thermal Unruh case, indicating loss of equivalence between acceleration and a thermal graviton bath.
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Pith papers citing it
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gr-qc 2years
2019 2verdicts
UNVERDICTED 2representative citing papers
Thermal photon fluctuations in a nonlinear medium produce light flight-time fluctuations that scale as T^4 at low temperature and linearly with T at high temperature, remaining smaller than vacuum contributions even at room temperature.
citing papers explorer
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Spontaneous excitation of an accelerated atom coupled with quantum fluctuations of spacetime
Transition rates for an accelerated atom in quantum gravitational vacuum contain a^4 and a^2 terms absent from the thermal Unruh case, indicating loss of equivalence between acceleration and a thermal graviton bath.
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Lightcone fluctuations in a nonlinear medium due to thermal fluctuations
Thermal photon fluctuations in a nonlinear medium produce light flight-time fluctuations that scale as T^4 at low temperature and linearly with T at high temperature, remaining smaller than vacuum contributions even at room temperature.