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[摘要]:Nonperturbative theoretical analysis of the temporal evolution of a spontaneous photon with atomic frequency omega(a), emitted by a motionless two-level atom in a one-dimensional high-finesse nanocavity into a single resonance decaying mode, is presented. The explicit solution of the Schrodinger equation was found in an interaction picture with use of the Green functions technique. It has been assumed that emission leaks out of the empty cavity by exponential law at rate Gamma, which is a function of coupling constant g, distance between the mirrors, penetrability coefficient of the left mirror, and the velocity of light. The stationary superpositional co-phased structure of two photons with the same profiles and average frequencies 1/2(omega(a) +/- g), quenched with continuum of final photonics states, has been revealed. The profile of this structure has been found to have the form Gamma t exp(-Gamma t/4) with maximum attained for Gamma/4g = 0.05 and average photon cavity lifetime equal to 4ln Gamma/Gamma. (C) 2011 Society of Photo-Optical Instrumentation Engineers (SPIE). [DOI: 10.1117/1.3599038] |
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