Transverse electric conductivity in collisional quantum plasma

Латышев, А. В.; Yushkanov, А. А.

doi:10.1134/s1063780x12100078

Cited by 24 publications

(31 citation statements)

References 29 publications

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“…Для описания поведения квантовой плазмы используется кинетическое уравнение с нелинейным интегралом Вигнера. Такое уравнение Вигнера с одним векторным потенциалом электромагнитного поля было построена в нашей работе [10].…”

Section: Discussionunclassified

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Non-Linear Longitudinal Current in Classical and Quantum Plasmas, Generating by Two Transversal Electromagnetic Waves

Латышев

Yushkanov

2015

Bulletin of the MSRU (Physics and mathematics)

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Section: Discussionunclassified

“…Этот интеграл Вигнера построен по аналогии с интегралом Вигнера, выведенным в работе [10] с использованием одного векторного потенциала.…”

Section: соответствующие электрические и магнитные поляunclassified

Non-Linear Longitudinal Current in Classical and Quantum Plasmas, Generating by Two Transversal Electromagnetic Waves

Латышев

Yushkanov

2015

Bulletin of the MSRU (Physics and mathematics)

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“…Evaluating the ratios a R /a I and a T /a I from the system (11) and substituting them into the equations (16), one arrives at the final equations for the R, T and also for the absorptance A:…”

Section: The Model and The Power Coefficientsmentioning

confidence: 99%

Quantum electron plasma, visible and ultraviolet P-wave and thin metallic film

Yushkanov

Zverev

2017

Physics Letters A

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The interaction of the visible and ultraviolet electromagnetic P-wave with the thin flat metallic film localized between two dielectric media is studied numerically in the framework of the quantum degenerate electron plasma approach. The reflectance, transmittance and absorptance power coefficients are chosen for investigation. It is shown that for the frequencies in the visible and ultraviolet ranges, the quantum power coefficients differ from the ones evaluated in framework of both the classical spatial dispersion and the Drude -Lorentz approaches.PACS numbers: 42.25. Bs, 78.66.Bz.

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“…Equality (2.5) we rewrite in the form 6) where σ l,tr is the longitudinal-transversal conductivity, J(Ω, y, q) is the dimensionless part of current,…”

Section: )mentioning

confidence: 99%

“…Quantum plasma was studied in works [6] - [22]. Collisional quantum plasma has started to be studied in work [13].…”

Section: Introductionmentioning

confidence: 99%

Longitudinal electric current generated by a transverse electromagnetic field in a collisional plasma

Латышев

Yushkanov

2016

Theor Math Phys

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Kinetic Vlasov equation for collisional plasmas with BGK (Bhatnagar-GrossKrook) collision integral is used. The case of arbitrary temperature (i.e. arbitrary degree of degeneration of electronic gas) is considered.From kinetic Vlasov equation the distribution function in square-law approximation on size of transversal electromagnetic field is received. The formula for calculation electric current is deduced. This formula contains one-dimension quadrature.It is shown, that the nonlinearity account leads to occurrence the longitudinal electric current directed along the wave vector. This longitudinal current is perpendicular to the known transversal classical current, received at the linear analysis.When frequency of collisions tends to zero, all received results for collisional plasma pass in known corresponding formulas for collisionless plasma.The case of small values of wave number is considered. It is shown, that the received quantity of longitudinal current at tendency of frequency of collisions to zero also passes in known corresponding expression of current for collisionless plasmas.Graphic research of dimensionless density of the current depending on wave number, frequency of oscillations of electromagnetic field and frequency of electron collisions with plasma particles is carried out.

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Transverse electric conductivity in collisional quantum plasma

Cited by 24 publications

References 29 publications

Non-Linear Longitudinal Current in Classical and Quantum Plasmas, Generating by Two Transversal Electromagnetic Waves

Non-Linear Longitudinal Current in Classical and Quantum Plasmas, Generating by Two Transversal Electromagnetic Waves

Quantum electron plasma, visible and ultraviolet P-wave and thin metallic film

Longitudinal electric current generated by a transverse electromagnetic field in a collisional plasma

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