New radioelectronic principles of low intensity infrared diagnostics of living tissues with micro- and nanoinhomogeneity includes

In the wavelength range from 1,4 to 14,5 micron spectrum is obtained by the inverse scattering of the IR layer of postoperative blood serum, adipose tissue layer, a layer of tumor tissue of breast cancer, limited plates of sapphire and silicon compensated, leading to an increase in the inverse scattering of the IR. For the first time experimentally investigated the effect of static magnetic and electric fields on the IR transparency of the living tissues. The experiments allow coming to an explanation of some features of the transmission and scattering of low-intensity infrared radiation in biological tissues was first discovered by the authors. The results open the way to the development of new electronic principles of low-intensity infrared diagnostics of living tissues and build on their base of highly non-invasive methods and devices for medical diagnostics.