Fig. 13 (the beginning). Proposed installations for implementation of different
processes of photon-boson conversion in material media:
a
— for photon-paraphoton conversion in a ruby laser resonator (
1
,
2
,
8
— mirrors;
3
—
active element of the ruby laser;
4
— pumping lamps;
5
— reflector;
6
— opaque wall;
7
—
ruby;
9
— radiation;
10
— lens;
11
,
12
— detectors);
b
— for photon-paraphoton conversion
in an erbium laser resonator (
1
,
3
,
6
,
7
— Bragg mirrors;
2
— quartz lightguide alloyed
with erbium;
4
— pumping;
5
— opaque wall;
8
,
9
— detectors);
c
— for paraphoton
light scattering by alkali halide crystals (
1
— mirrors;
2
— active element;
3
— nonlinear
crystal;
4
,
5
,
7
— lenses;
6
— alkali halide crystal;
8
,
9
— detectors)
and in vacuum. The author has established the dispersion laws for transverse
and longitudinal photons in the material media and paraphotons as well as
axions in vacuum.
The author has determined conditions for optimization of photon-
paraphoton conversion processes in the material media and in vacuum.
It is shown that synchronism conditions for photon-paraphoton conversion
in the material medium can be met, when unitary polaritons which squared
refractive index is unity are used as exciting radiation.
ISSN 1812-3368. Herald of the BMSTU. Series “Natural Sciences”. 2015. No. 1
49