Computes angular-dependent vacuum-to-pair emission rates for scalar field with time-dependent Dirichlet boundary up to fourth order and shows how two-pair channel modifies the probability-effective action relation.
Quantum dissipative effects for a real scalar field coupled to a time-dependent Dirichlet surface in d+1 dimensions
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abstract
We study the Dynamical Casimir Effect (DCE) for a real scalar field $\varphi$ in $d+1$ dimensions, in the presence of a mirror that imposes Dirichlet boundary conditions and undergoes time-dependent motion or deformation. Using a perturbative approach, we expand in powers of the deviation of the mirror's surface $\Sigma$ from a hyperplane, up to fourth order. General expressions for the probability of pair creation induced by motion are derived, and we analyze the impact of space-time dimensionality as well as of the non-linear effects introduced by the fourth-order terms.
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Pair creation amplitudes for a real scalar field coupled to a time-dependent surface in d+1 dimensions
Computes angular-dependent vacuum-to-pair emission rates for scalar field with time-dependent Dirichlet boundary up to fourth order and shows how two-pair channel modifies the probability-effective action relation.