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Particle detectors in superposition in de Sitter spacetime

Publikation: Arbeitspapier/PreprintPreprint

Autorschaft

  • Laura Niermann
  • Luis C. Barbado

Organisationseinheiten

Externe Organisationen

  • Universität Wien

Details

OriginalspracheEnglisch
PublikationsstatusElektronisch veröffentlicht (E-Pub) - 4 März 2024

Abstract

Cosmological particle creation is the phenomenon by which the expansion of spacetime results in the production of particles of a given quantum field in that spacetime. In this paper, we study this phenomenon by considering a multi-level quantum particle detector in de Sitter spacetime coupled to a massless real quantum scalar field. Rather than considering a fixed classical trajectory for the detector, following recent novel approaches we consider a quantum superposition of trajectories, in particular of static trajectories which keep a fixed distance from one another. The main novel result is that, due to the quantum nature of the superposition of trajectories, the state of the detector after interaction with the field is not only a mixture of the thermal states that would be expected from each individual static trajectory but rather exhibits additional coherences due to interferences between the different trajectories. We study these in detail and associate them with the properties of the particle absorbed by the detector from the thermal bath.

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Particle detectors in superposition in de Sitter spacetime. / Niermann, Laura; Barbado, Luis C.
2024.

Publikation: Arbeitspapier/PreprintPreprint

Niermann, L., & Barbado, L. C. (2024). Particle detectors in superposition in de Sitter spacetime. Vorabveröffentlichung online. https://doi.org/10.48550/arXiv.2403.02087
Niermann L, Barbado LC. Particle detectors in superposition in de Sitter spacetime. 2024 Mär 4. Epub 2024 Mär 4. doi: 10.48550/arXiv.2403.02087
Niermann, Laura ; Barbado, Luis C. / Particle detectors in superposition in de Sitter spacetime. 2024.
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TY - UNPB

T1 - Particle detectors in superposition in de Sitter spacetime

AU - Niermann, Laura

AU - Barbado, Luis C.

PY - 2024/3/4

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N2 - Cosmological particle creation is the phenomenon by which the expansion of spacetime results in the production of particles of a given quantum field in that spacetime. In this paper, we study this phenomenon by considering a multi-level quantum particle detector in de Sitter spacetime coupled to a massless real quantum scalar field. Rather than considering a fixed classical trajectory for the detector, following recent novel approaches we consider a quantum superposition of trajectories, in particular of static trajectories which keep a fixed distance from one another. The main novel result is that, due to the quantum nature of the superposition of trajectories, the state of the detector after interaction with the field is not only a mixture of the thermal states that would be expected from each individual static trajectory but rather exhibits additional coherences due to interferences between the different trajectories. We study these in detail and associate them with the properties of the particle absorbed by the detector from the thermal bath.

AB - Cosmological particle creation is the phenomenon by which the expansion of spacetime results in the production of particles of a given quantum field in that spacetime. In this paper, we study this phenomenon by considering a multi-level quantum particle detector in de Sitter spacetime coupled to a massless real quantum scalar field. Rather than considering a fixed classical trajectory for the detector, following recent novel approaches we consider a quantum superposition of trajectories, in particular of static trajectories which keep a fixed distance from one another. The main novel result is that, due to the quantum nature of the superposition of trajectories, the state of the detector after interaction with the field is not only a mixture of the thermal states that would be expected from each individual static trajectory but rather exhibits additional coherences due to interferences between the different trajectories. We study these in detail and associate them with the properties of the particle absorbed by the detector from the thermal bath.

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