1 January 1993 Quantum statistical properties of modes in a three-level atom with multiphoton transition interacting with two cavity fields
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Optical Engineering, 32(1), (1993). doi:10.1117/12.60077
Abstract
The quantum statistical properties of two field modes are studied for a three-level atom with multiphoton transition interacting with two cavity fields. By numerical calculations it is shown that, in the continual absorbing and emitting photons of the interacting system a "photon submergence," the bunching and antibunching effects of two modes, exists. In addition, the impact of the atom's one transition photon numbers and the initial mean photon number of two modes on these effects are discussed in detail.
Shi-Bing Liu, "Quantum statistical properties of modes in a three-level atom with multiphoton transition interacting with two cavity fields," Optical Engineering 32(1), (1 January 1993). http://dx.doi.org/10.1117/12.60077
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KEYWORDS
Photons

Chemical species

Radon

Absorption

Radiation effects

Microwave radiation

Multiphoton processes

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