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Anti-Unruh Phenomena

We find that a uniformly accelerated particle detector coupled to the vacuum can cool down as its acceleration increases, due to relativistic effects. We show that in (1+1)-dimensions, a detector coupled to the scalar field vacuum for finite timescales (but long enough to satisfy the KMS condition) has a KMS temperature that decreases with acceleration, in certain regimes. This contrasts with the heating that one would expect from the Unruh effect.

7 nodes8 linksoverview previewAnti-Unruh Phenomena
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Anti-Unruh Phenomena7 visible / 7 total nodes / 11 links
Co-authorshipCo-authorshipCo-authorshipAuthorshipAuthorshipAuthorshipTopic signalTopic signalTopic signalRelated contextRelated contextWAnti-Unruh Phenomenapreprint / 2015AWilson G. BrennaResearcherARobert B. MannResearcherAEduardo Martin-MartinezResearcherTquant-ph17817 worksTgr-qc10727 worksThep-th13268 works
PaperSignal 106 links

Anti-Unruh Phenomena

preprint / 2015

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