Radiation from accelerating mirrors in a Minkowski spacetime provides
insights into the nature of horizons, black holes, and entanglement entropy. We
introduce new, simple, symmetric and analytic moving mirror solutions and study
their particle, energy, and entropy production. This includes an asymptotically
static case with finite emission that is the black hole analog of complete
evaporation. The total energy, total entropy, total particles, and spectrum are
the same on both sides of the mirror. We also study its asymptotically
inertial, drifting analog (which gives a black hole remnant) to explore
differences in finite and infinite production.Comment: 8 pages, 10 figure

Good, Michael R. R.

Linder, Eric V.

English

arXiv

Energetic Cosmos Laboratory. ECL PublicationsRadiation from accelerating mirrors in a Minkowski spacetime provides insights into the nature of horizons, black holes, and entanglement entropy. We introduce new, simple, symmetric and analytic moving mirror solutions and study their particle, energy, and entropy production. This includes an asymptotically static case with finite emission that is the black hole analog of complete evaporation. The total energy, total entropy, total particles, and spectrum are the same on both sides of the mirror. We also study its asymptotically inertial, drifting analog (which gives a black hole remnant) to explore differences in finite and infinite production

Good, Michael R.R.

Nazarbayev University Repository

Slicing the vacuum: New accelerating mirror solutions of the dynamical Casimir effect

Radiation from accelerating mirrors in a Minkowski spacetime provides insights into the nature of horizons, black holes, and entanglement entropy. We introduce new, simple, symmetric and analytic moving mirror solutions and study their particle, energy, and entropy production. This includes an asymptotically static case with  nite emission that is the black hole analog of complete evaporation. The total energy, total entropy, total particles, and spectrum are the same on both sides of the mirror. We also study its asymptotically inertial, drifting analog (which gives a black hole remnant) to explore di erences in  nite and in nite production

Slicing the Vacuum: New Accelerating Mirror Solutions of the Dynamical Casimir Effect

Michael R. R. Good

Eric V. Linder

Crossref

Slicing the Vacuum: New Accelerating Mirror Solutions of the Dynamical
  Casimir Effect

Slicing the Vacuum: New Accelerating Mirror Solutions of the Dynamical Casimir Effect

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