Quantum beat laser as a source of entangled radiation
Abstract
We consider a quantum beat laser [Scully and Zubairy, Phys. Rev. A 35 752 (1987)] as a source of entangled radiation. The system essentially consists of three-level atoms inside a doubly resonant cavity such that coherence is introduced by driving the upper two levels with a strong classical field of Rabi frequency Omega. We study the dynamics of this system for different values of Rabi frequencies in the presence of cavity losses. It is shown that entanglement can be generated in this system for different initial states of the field in the two modes.
Description
Journals published by the American Physical Society can be found at http://publish.aps.org/Subject
CORRELATED SPONTANEOUS EMISSIONCONTINUOUS VARIABLE SYSTEMS
SEPARABILITY CRITERION
PARAMETRIC-AMPLIFIER
GENERATION
TELEPORTATION
CAVITY
ATOMS
LIGHT
Optics
Physics