UNIVERSAL CONCEPT OF THE UNIQUE MAGNETO-DIPOLE HOLOGRAPHIC SPECTRUM OF THE ENERGETIC MATERIALS REACTIONARY ZONES AND ADVANCED THROTTLE CONTROL TECHNIQUES

摘要

According to our challenging hypothesis, each energetic material has a unique interactive magneto-dipole holographic spectrum of the reactionary zone which is the synergetic oscillatory system. Our hypothesis is supported by the recent data, obtained in the various model combustion systems. Magneto-dipole 3-D micro/nano-scale structures can be considered as information medium which characterizes the reactionary zone of the energetic material. Instead of using laser-assisted combustion, we suggest excitation of the resonance spectrums of the reactionary zones by means of polarized (resonance) laser radiation. Laser-induced excitation of the resonance spectrums of the reactionary zones along with re-programming of the magneto-dipole spectrum of the reactionary zones gives the possibility for control by the scale and 3-D localization of the induction and energy-releasing areas and, accordingly, allows control inter-scale interaction in the aerospace propulsion systems.