A further study of the matte black-body

A deduction of the radiation intensity at see level is deduced by using a semiclassical approach by means of the quantum energy spectrum deduced from the driven damped harmonic oscillator, the ergodic theorem and the mean energy obtained by using the Abraham equation of motion for a charged particle...

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Bibliographic Details
Published inPhysica A Vol. 516; pp. 472 - 479
Main Authors González-Hernández, S., Ramírez-Moreno, M.A., Ares de Parga, G.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.02.2019
Subjects
Black-body radiation
Driven force
Gray-body
Matte black-body
Quantum oscillator
Semiclassical approach
Semiclassical approach
Black-body radiation
Gray-body
Quantum oscillator
Matte black-body
Driven force
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Summary:A deduction of the radiation intensity at see level is deduced by using a semiclassical approach by means of the quantum energy spectrum deduced from the driven damped harmonic oscillator, the ergodic theorem and the mean energy obtained by using the Abraham equation of motion for a charged particle. The method is based on using the quantum energy values of a modified Caldirola–Kanai Hamiltonian calculated by Um et al., (2002) with a particular driven force. •Proposal for modeling interaction of electromagnetic radiation with the water.•Model of a black-body cavity considering damped harmonic oscillators, subject to an external force.•Heuristic determination of interaction potential between electromagnetic radiation and the water.
ISSN:0378-4371
1873-2119
DOI:10.1016/j.physa.2018.10.043