Abstract
The theoretical interpretation of measurements of ‘wavefunctions’ and spectra in electromagnetic cavities excited by antennas is considered. Assuming that the characteristic wavelength of the field inside the cavity is much larger than the radius of the antenna, we describe antennas as ‘point-like perturbations’. This approach strongly simplifies the problem reducing the whole information on the antenna to four effective constants. In the framework of this approach we overcame the divergency of series of the phenomenological scattering theory and justify assumptions lying at the heart of ‘wavefunction measurements’. This self-consistent approach allowed us to go beyond the one-pole approximation, in particular, to treat the experiments with degenerate states. The central idea of the approach is to introduce the ‘renormalized’ Green function, which contains the information on boundary reflections and has no singularity inside the cavity.
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