Quantum Theory of the Electromagnetic Field in a Variable-Length One-Dimensional Cavity
作者: Gerald T. Moore
DOI: 10.1063/1.1665432
关键词: S-matrix 、 Hamiltonian (quantum mechanics) 、 Photon 、 Interaction picture 、 Optical field 、 Schrödinger picture 、 Physics 、 Quantum mechanics 、 Heisenberg picture 、 Electromagnetic field
摘要: The quantum theory of linearly polarized light propagating in a 1‐dimensional cavity bounded by moving mirrors is formulated utilizing the symplectic structure space solutions wave equation satisfied Coulomb‐gauge vector potential. possesses no Hamiltonian and Schrodinger picture. Photons can be created exciting effect on zero‐point field energy. A calculation indicates that number photons immeasurably small for nonrelativistic mirror trajectories continuous velocities. Automorphic transformations are used to calculate mode functions cavity, adiabatic expansions these derived. electromagnetic may coupled matter means transformation from interaction picture Heisenberg picture; this generated an Hamiltonian.
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