Fig. 13 (the end).
d
— for registration of infrared radiation at the induced Raman scattering
by transverse polaritons in a lithium niobate crystal with the optical axis perpendicular to
the direction of exciting radiation propagation (
1
,
6
— mirrors;
2
— active element;
3
—
lamps;
4
— reflector;
5
— crystal;
7
— lens;
8
— detector);
e
— for registration of infrared
radiation at the induced Raman scattering by longitudinal polaritons in a lithium niobate
crystal having the optical axis which coincides with the direction of exciting radiation
propagation (
1
— mirror;
2
— active element;
3
— lamp;
4
— shield;
5
— crystal;
6
— opaque
wall;
7
— lens;
8
— detector);
f
— for registration of infrared radiation at the induced
Raman scattering by longitudinal polaritons in a lithium niobate crystal (
1
— mirror;
2
—
active element;
3
— lamp;
4
— shield;
5
— crystal;
6
— opaque wall;
7
— lens;
8
— detector)
The author has predicted the possibility to observe the dynamic Casimir
effect during the Raman scattering by totally symmetrical oscillations of
molecules and crystals as well as during the induced light scattering by
bosons in globular photon crystals.
The research was supported by the Russian Foundation for Basic
Research; grants 12-02-00491, 12-02-90422, 12-02-90021, 12-02-90025,
13-02-00449, 13-02-90420, 14-02-00190.
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