SU810007A1 - Source of optical pumping for solid-state laser - Google Patents

Description

one

The invention relates to the field of quantum electronics, more specifically to sources of optical pumping of solid-state lasers.

A source of optical pumping of a solid-state laser is known, made on the basis of a high-frequency electrodeless lamp with an excitation inductor located inside the bulb of lamp 1.

The disadvantages of this design are: not sufficiently high efficiency; large loss of luminous flux; contamination of the discharge volume by the erosion products of the diffuse reflecting coating of the inductor.

A source of optical pumping of a solid-state laser based on a high-frequency electrodeless lamp with an excitation inductor located outside the bulb is known, being the closest to the technical essence 2.

A gas discharge lamp with an annular cross section surrounds the active element of a cylindrical shape. The discharge in the cavity of the lamp is excited by the high-frequency electromagnetic zero of the inductor surrounding the lamp. Structurally, the inductor can be made tubular or tape. There is a gap between the surface of the light source and the inductor. The light source is covered by the cooling jacket. A diffuse-reflecting coating is applied to the outer surface of the jacket.

The described structure has the following disadvantages.

It is known that the efficiency of high-frequency heating devices, including light sources, depends on the ratio of the diameter of the heated part or the plasma coil to the diameter of the inductor. The higher this ratio is to unity, the higher the efficiency of the device. The gap between the surface of the bulb of the light source and the inductor of the structure under consideration does not make it possible to increase the efficiency of the device.

The use of a diffuse reflector for this task does not allow vozmolnost to achieve good results, as this is due to the introduction of structural elements with a thickness of at least 1 mm (in practice more than 2 mm). The gap for the passage cooled the supply fluid must not be less than I mm.

The location of the inductor inside the heater and outside the reflector does not exclude the need for a gap for the passage of cooling fluid. The first leads to inescapable light losses due to absorption by the inductor. In the second solution, the gap is small

Claims (2)

Claim 1. The optical pump source of a solid-state laser containing a cavity electrodeless lamp and a reflector and a tape inductor mounted around it, characterized in that, in order to increase its efficiency, the reflector is made combined in the form of an interference dielectric coating applied directly to the outer surface of the bulb and adjacent to it mirror coating, which is also a tape inductor, and the thickness of the interference coating is not more than ^! / ₄ thickness of the mirror coating. 2. Source for π. 1, characterized in that the interference coating is made of oxides, for example, SiO ₂ and TU ₂ .