The results of investigation of the phenomena ISPh was reported. It was shown that in the given layers after the
irradiation of the polarized light with wave-length actinic for the given sensitizer and of the following specific
development the photo-induced anisotropy was visualized. It turns out that weakly expressed anisotropy of the latent
image multiplied more than on the two order of magnitude. As it was shown in this investigation, the value of the photo
anisotropic parameters can changed in wide-ranging after the specific physicochemical treatment: hypersensitizing,
specific worked out developers, thermal treatment, fixing (in case of need). Each of the procedure has such essential
value, that the separated examination was needed. For example, 20 developing agent per se and large quantity of the
different compositions, and also the quantity hypersensitizers was investigated. The photo induced anisotropy maybe
measured on the modified spectrophotometers SF-10 or SF-18. To receive experimentally the dependence of the
anisotropic absorption, and the light induced birefringence it is necessary to carry out not less than 6 measurements of
transmission of the differently oriented irradiated samples (0°; 45°; 90°), placed between parallel and crossed polarizers
in the spectrophotometer. Some technological regimes which reduced to the optimization of the parameters of the photo
anisotropy are presented. The high stability, the possibility of working in the red region and with the low power energy
sources, with the wide controlled characteristics are represented the main advantage of such media. In addition the
Schwarzchild effect in the ISPh phenomena is considered.
Anisotropic change of the absorbtion edge of seleno-cadmium glass under the action of linearly polarized monoimpulse
of a ruby laser of great power has been investigated. The spectral width of the area of anisotropic bleaching of the sample
which is being radiated has been estimated. The dispersion curves of photoinduced birefringence and the anisotropy of
the absorbtion on the absorbtion edge of the glass of RY-19 type have been obtained in the interval (6500-6700 A).
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