2020
DOI: 10.3390/universe6120241
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Uniqueness Criteria for the Fock Quantization of Dirac Fields and Applications in Hybrid Loop Quantum Cosmology

Abstract: In generic curved spacetimes, the unavailability of a natural choice of vacuum state introduces a serious ambiguity in the Fock quantization of fields. In this review, we study the case of fermions described by a Dirac field in non-stationary spacetimes, and present recent results obtained by us and our collaborators about well-motivated criteria capable to ensure the uniqueness in the selection of a vacuum up to unitary transformations, at least in certain situations of interest in cosmology. These criteria a… Show more

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Cited by 7 publications
(23 citation statements)
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“…Therefore, we can interpret that the inequivalence between these two representations is due exclusively to artificially choosing two different conventions (s = s) for the concepts of particle and antiparticle. Analogous results also appear in the study of the uniqueness of the Fock quantization of free Dirac fields in non-stationary curved spacetimes [8].…”
Section: Uniqueness Of the Quantizationsupporting
confidence: 56%
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“…Therefore, we can interpret that the inequivalence between these two representations is due exclusively to artificially choosing two different conventions (s = s) for the concepts of particle and antiparticle. Analogous results also appear in the study of the uniqueness of the Fock quantization of free Dirac fields in non-stationary curved spacetimes [8].…”
Section: Uniqueness Of the Quantizationsupporting
confidence: 56%
“…In addition, we also impose that they should allow the unitary implementation of the dynamics with two main objectives: assuring throughout the evolution of the vacuum both the physical equivalence of the quantizations and the finiteness of the number of created particles at finite times. This work aims to translate the analysis carried out in non-stationary curved spacetimes for free fields [7,8] to the Schwinger effect. This was first done for a charged scalar field on [13].…”
Section: Discussionmentioning
confidence: 99%
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