Exploring the Rindler vacuum and the Euclidean plane
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Publication:5136160
DOI10.1063/5.0004154zbMath1452.81154arXiv1906.09278OpenAlexW2949695643WikidataQ114103895 ScholiaQ114103895MaRDI QIDQ5136160
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Publication date: 25 November 2020
Published in: Journal of Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1906.09278
Feynman diagrams (81T18) Quantum field theory on curved space or space-time backgrounds (81T20) Measure (Gaussian, cylindrical, etc.) and integrals (Feynman, path, Fresnel, etc.) on manifolds (46T12)
Related Items (4)
Vacuum currents in partially compactified Rindler spacetime with an application to cylindrical black holes ⋮ Probing the Planck scale: the modification of the time evolution operator due to the quantum structure of spacetime ⋮ A measure for quantum paths, gravity and spacetime microstructure ⋮ Characters, quasinormal modes, and Schwinger pairs in \(\mathrm{dS}_2\) with flux
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Cites Work
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- The Schrödinger wave functional and vacuum states in curved spacetime. II: Boundaries and foliations
- Thermal Wightman functions and renormalized stress tensors in the Rindler wedge
- The Unruh effect and its applications
- Euclidean spinor Green’s functions in the space–time of a straight cosmic string
- Transition rate of the Unruh–DeWitt detector in curved spacetime
- Quantum Fields in Curved Space
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