Light & Engineering 30 (3)

Volume 30
Date of publication 06/06/2022
Pages 61–67

Coherent Stimulated Radiation, Coherent Spontaneous Radiation and Coupled Photon Pairs in Non-Uniform Thermally Excited Gaseous Media: Calculation Procedure L&E, Vol.30, No.3, 2022

Articles authors:

Boris A. Veklenko

Boris A. Veklenko, Prof., Dr. of Phys.-Math. Sc., graduated from the Moscow Power Engineering Institute in 1955, defended doctor theses in 1991. At present, he is a Chief Researcher of the JIHT RAS and solves problems of quantum theory of radiation

Abstract:

This work continues the author’s study of the processes of interaction between a quantum electromagnetic field and a spatially non-uniform gaseous medium [1, 5]. Previously unknown optical effects caused by consideration of high-order quantum correlators were discovered. This is caused by the problem of calculation of high-order photonic correlators starting from the fourth order, which appears when the interaction between the quantum electromagnetic field is described using the Feynman diagrams, According to T.A. Matsubara’s technique applied nowadays, these correlators are just neglected. The author’s articles [1, 5] describe the calculation method allowing us to avoid thiscomplication. The method is based on the following. High-order quantum correlators appear when multi-particle problems are studied. If the number of particles is small (hydrogen atom), the problem disappears. Therefore, if we replace a multi-particle problem with a single-particle problem (even if this particle is rather complex), the problem will be solved. Such solution (by using the Γ-operators technique) is described in the said author’s articles. While the standard secondary quantisation technique uses operators of creation and destruction of separate particles, the Γ-operators technique deals with operators of creation and destruction of photon conglomerates (systems). It turns out that high-order correlators just do not appear when the Γ-operators technique is used. This article demonstrates a specific example of application of the Γ-technique.

References:

1. Veklenko, Boris A. Coherent Stimulated Radiation, Coherent Spontaneous Radiation and Coupled Photon Pairs in Non-Uniform Thermally Excited Gaseous Media: The Theory // Light & Engineering, 2022, Vol. 30, # 1, pp. 4–11.
2. Veklenko, B.A. Quantum Macroscopic Effect in Resonance Optics [Kvantoviy makros kopicheskiy effekt v rezonansnoy optike] // ZhETF, 1989, Vol. 96, # 2, pp. 457–471.
3. Veklenko, B.A., Gusarov, R.B., Sherkunov, Yu.B. Distinctions of Selective Reflection of Resonance Radiation from Excited Media [Osobennosti selektivnogo otrazheniya rezonansnogo izlucheniya ot vozbuzhdyonnykh sred] // ZhETF, 1998, Vol. 113, # 2, pp. 521–538.
4. Veklenko, B.A. Coherent Stimulated Radiation, Coherent Spontaneous Radiation and Coupled Photon Pairs in Non-Uniform Thermally Excited Gaseous Media: The Theory [Kogerentnoye vynuzhdennoye izlucheniye, kogerent noye spontannoye izlucheniye i svyazannyie fotonnyie pary v neodnorodnykh termicheski vozbuzhdyonnykh gazovykh sredakh: teoriya] // Svetotekhnika, 2021, # 5, pp. 62–67.
5. Veklenko, B.A. Coupled States of Photon Pairs [Svyazannyie sostoyaniya fotonnykh par] // Inzhenernaya fizika, 2018, Vol. 1, pp. 31–40.
6. Andreev, A.F. Heat Conductivity of the Transient State of Superconductors [Teploprovod nost promezhutochnogo sostoyaniya sverkhprovodnikov] // ZhETF, 1964, Vol. 46, # 5, pp. 1823–1828.
7. Veselago, V.G. Electrodynamics of Substances with Simultaneous Negative Values of ε and μ [Elektrodinamika veshchestv s odnovremenno otritsatelnymi znacheniyami ε i μ] // UFN, 1967, Vol. 92, # 3. pp. 517–526.
8. Sivukhin, D.V. On the Energy of Electromagnetic Field in Dispersive Media [Ob energii elektromagnitnogo polya v dispergiruyushchikh sredakh] // Optika i spektroskopiya, 1957, Vol. 3, # 4, pp. 308–312.

Keywords

DOI: https://doi.org/10.33383/2021-121

Article in RUS:
Svetotekhnika #1, 2022, pp.78–82

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