Add to ORKGWe consider mirrors of the spherical shape, that can expand or contract. Due to the excitation of the vacuum around, some spherical waves radiated from vibrating mirrors are encountered. Using experience from well-known literature on studies of two-dimensional conformal models, we adopt a similar framework to investigate such quantum phenomena in four dimensions. We calculate quantum averages of the energy-momentum tensor for s-wave approximation
The vacuum energy of a scalar field in a spherically symmetric background field is considered. It is...
According to Quantum Field Theory, any non-uniformly accelerated scatterer in vacuum experiences a d...
We evaluate the probability of (de-)excitation and photon emission from a neutral, moving, non-relat...
We calculate the flux from a spherical mirror which is expanding or contracting with nearly uniform ...
Radiation from movingmirrors, a pure quantum effect, is well understood for mirrors that advance or ...
In this paper we study energy radiation from a moving mirror in 1+1 dimensional space-time. The mirr...
Motivated by the fact that the null shell of a collapsing black hole can be described by a perfectly...
In this paper we discuss and review several aspects of the effect of boundary conditions and structu...
We consider the coupling of the electromagnetic vacuum field with an oscillating perfectly-reflectin...
We use fluctuational electrodynamics to determine spectral emissivity and van der Waals contribution...
We present a microphysics model for the kinematics and dynamics of optomechanics describing the coup...
This paper models light scattering through flat surfaces with finite transmission, reflection, and a...
30 pages, 9 postscript figuresWe study the correlations between the particles emitted by a moving mi...
Light reflection on a mirror can be thought as a simple physical effect. However if this happens whe...
The scalar quantum field uniformly moving plates in three dimensional space is studied. Field equati...
The vacuum energy of a scalar field in a spherically symmetric background field is considered. It is...
According to Quantum Field Theory, any non-uniformly accelerated scatterer in vacuum experiences a d...
We evaluate the probability of (de-)excitation and photon emission from a neutral, moving, non-relat...
We calculate the flux from a spherical mirror which is expanding or contracting with nearly uniform ...
Radiation from movingmirrors, a pure quantum effect, is well understood for mirrors that advance or ...
In this paper we study energy radiation from a moving mirror in 1+1 dimensional space-time. The mirr...
Motivated by the fact that the null shell of a collapsing black hole can be described by a perfectly...
In this paper we discuss and review several aspects of the effect of boundary conditions and structu...
We consider the coupling of the electromagnetic vacuum field with an oscillating perfectly-reflectin...
We use fluctuational electrodynamics to determine spectral emissivity and van der Waals contribution...
We present a microphysics model for the kinematics and dynamics of optomechanics describing the coup...
This paper models light scattering through flat surfaces with finite transmission, reflection, and a...
30 pages, 9 postscript figuresWe study the correlations between the particles emitted by a moving mi...
Light reflection on a mirror can be thought as a simple physical effect. However if this happens whe...
The scalar quantum field uniformly moving plates in three dimensional space is studied. Field equati...
The vacuum energy of a scalar field in a spherically symmetric background field is considered. It is...
According to Quantum Field Theory, any non-uniformly accelerated scatterer in vacuum experiences a d...
We evaluate the probability of (de-)excitation and photon emission from a neutral, moving, non-relat...