The principle of remote-resonance spectroscopy

Abstract

To promote the efficiency of the effect of remote-resonance which is induceable in the anomalous dispersion region of the resonator surface in the I.R. region, we have investigated three subjects; One is usage of the multi-piled oscillators made of silica-Si layers. Second is the soft-Zeeman effect (at 0–15 Gauss) which was induced in the system of remote-resonance which consists of the oscillator and the resonator they were situated perpendicularly with some distance in the atomospheric air. Third is usage of the I.R. radiation emitted from the surface of hand and the radiation modulated by some textiles as oscillators. The efficiency of this system was shown as ΔR_i (E_i) α α (E_i), β (E_i). γ (E_i), (emission efficiency x transferring efficiency x resonance efficiency) and ΔR_i (E_i) was shown as (N_o (E_i)±ΔN_i (E_i))x fα{R_o (E_i)±ΔR_i (E_i)} at the spin sensitive region of the resonator surface in the Nf-R relation. Also, we discussed the stress-optical effect, the soft-Zeeman effect and some physiological problems induced in this system based on the statistical spin-quantum mechanics considering the predissociation and dissociation process of the shallow electrons in Si (100) face and CO ^*₂ excimers and the CO₂ molecules in the air.