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Quantum field theory with dynamical boundary conditions and the Casimir effect: coherent states <sup>*</sup>

Benito A. Juárez-Aubry, Ricardo Weder

2021Journal of Physics A Mathematical and Theoretical13 citationsDOIOpen Access PDF

Abstract

Abstract We have studied in a previous work the quantization of a mixed bulk-boundary system describing the coupled dynamics between a bulk quantum field confined to a spacetime with finite space slice and with timelike boundary, and a boundary observable defined on the boundary. Our bulk system is a quantum field in a spacetime with timelike boundary and a dynamical boundary condition—the boundary observable’s equation of motion. Owing to important physical motivations, in such previous work we have computed the renormalized local state polarization and local Casimir energy for both the bulk quantum field and the boundary observable in the ground state and in a Gibbs state at finite, positive temperature. In this work, we introduce an appropriate notion of coherent and thermal coherent states for this mixed bulk-boundary system, and extend our previous study of the renormalized local state polarization and local Casimir energy to coherent and thermal coherent states. We also present numerical results for the integrated Casimir energy and for the Casimir force.

Topics & Concepts

Casimir effectPhysicsCoherent statesObservableBoundary value problemQuantization (signal processing)Classical mechanicsBoundary (topology)Quantum field theoryQuantum mechanicsQuantumMathematical analysisMathematicsAlgorithmQuantum Electrodynamics and Casimir EffectNoncommutative and Quantum Gravity TheoriesQuantum Mechanics and Applications