Graviton loop corrections to vacuum polarization in de Sitter in a general covariant gauge
Publication date
2015-10-08
Authors
Glavan, D.
Miao, S. P.
Prokopec, T.
Woodard, R. P.
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Advisors
Supervisors
Document Type
Article
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taverne
Abstract
We evaluate the one-graviton loop contribution to the vacuum polarization on de Sitter background in a 1-parameter family of exact, de Sitter invariant gauges. Our result is computed using dimensional regularization and fully renormalized with Bogoliubov, Parasiuk, Hepp and Zimmerman counterterms, which must include a noninvariant owing to the time-ordered interactions. Because the graviton propagator engenders a physical breaking of de Sitter invariance two structure functions are needed to express the result. In addition to its relevance for the gauge issue this is the first time a covariant gauge graviton propagator has been used to compute a noncoincident loop. A number of identities are derived which should facilitate further graviton loop computations.
Keywords
quantum gravity, de Sitter, vacuum polarization, gauge dependence, INFLATIONARY UNIVERSE SCENARIO, EXPECTATION VALUE FORMALISM, QUANTUM FIELD THEORY, PHASE-TRANSITIONS, SCALAR FIELD, SELF-ENERGY, PERTURBATIONS, SPACE, ELECTRODYNAMICS, DIVERGENCES, Taverne
Citation
Glavan, D, Miao, S P, Prokopec, T & Woodard, R P 2015, 'Graviton loop corrections to vacuum polarization in de Sitter in a general covariant gauge', Classical and Quantum Gravity, vol. 32, no. 19, 195014. https://doi.org/10.1088/0264-9381/32/19/195014