Dielectric crystal in the Planck blackbody

Miroslav Pardy

arXiv:1505.02756·physics.gen-ph·May 12, 2015

Dielectric crystal in the Planck blackbody

Miroslav Pardy

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TL;DR

This paper derives a spectral formula for photons in a dielectric crystal within a blackbody, analyzing the resulting thermodynamic effects and photon flow in such media.

Contribution

It introduces a new spectral formula for photons in dielectric blackbodies and explores the thermodynamic implications of photon flow and osmotic pressure.

Findings

01

Derived spectral formula for photons in dielectric blackbody

02

Solved the formula for constant index of refraction

03

Identified photon flow and osmotic pressure effects

Abstract

The dielectric crystal with the index of refraction n is inserted in the Planck blackbody. The spectral formula for photons in such dielectric medium is derived with the equation for the temperature of internal photons. The derived equation is solved for the constant index of refraction. The photon ow initiates the osmotic pressure of he Debye phonons in the dielectric blackbody. Key words: Thermodynamics, blackbody, photons, phonons, dielectric medium, dispersion.

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Taxonomy

TopicsAdvanced MEMS and NEMS Technologies · Mechanical and Optical Resonators · Advanced Physical and Chemical Molecular Interactions