Thermally stimulated electromagnetic fields from solids

Ways to calculate the spectral properties of fluctuating electromagnetic fields produced by solids are reviewed, all of which essentially reduce to first solving the Maxwell equations for specified geometry and boundary conditions and then applying the fluctuation-dissipation theorem. It is shown that in the practical case of plane layered solids all correlation characteristics of the thermal fields can be expressed in terms of the Fresnel coefficients. Experimental results on thermally stimulated electromagnetic fields from solids are in qualitative and quantitative agreement with model calculations and theoretical expectations. The dispersion interaction between bodies in different thermodynamic states, fluctuating fields as a means of body-to-body energy transfer, and the shift, broadening and deexcitation of energy levels in a particle near a solid surface are discussed using the theory of thermally stimulated electromagnetic fields.