SU1224885A1 - Wide-aperture resonator of laser with multipassage models - Google Patents

Description

This invention relates to quantum electronics and can be used in laser technology.

The purpose of the invention reduces the divergence and increase in the power density of the radiation without reducing the CIC of the device,

The drawing shows the modal structure of the generated radiation. The proposed resonator contains a spherical vertical 1 and a flat mirror 2. In the drawing, the light spots are marked 3 .. 1, 3,2,3.3, 4.1, 4,2, 4.3, 5.1, 5.2, 5.3 on the mirrors 1, 2 of the resonator and the communication hole 6 in a flat mirror 2.

Using the example of twelve-way modes of a stable configuration excited in a plane-spherical resonator, the structure of the generated radiation is shown when the modes with the common axis of the ellipses of the distribution of light spots on the mirrors are selected and the region where the rays of the selected modes are parallel to each other is specified. The trajectory of the light beam of the multi-path mode in the resonator is a closed broken line 5-gy. The curve along which the light spots on the mirrors are located is an ellipse.

The proposed resonator provides for the obtaining of narrowly directed sia grain beams due to the use of the following property of multi-pass modes; multipass modes with one common axis of the ellipses of the distribution of light spots on the mirrors in separate parts of their trajectories. foror by Bandura 1958/52

SOS GAEITER P. In ravtsov Tehred I.Zeres

Co Po

Circulation 597 BliMfnii of the State of the USSR

for inventions to Str 7, 13035, Moscow, F-ZZ Rau, Bc Neib.,, A / 5

Proi; Water-printing company, Uzhgorod, Projecto st., A

852

mzfzg et beams of rays parallel between the singular. Parallel rays give p / tn on the mirrors, which are located on a straight line perpendicular to the common axis. In the case of a flat-spherical resonator, this gf may pass through the center of the mirror., It can be seen from the drawing that in the center: s centers of light 3. 3. 3.2

AL

one pu0 passes

five

0

A pair of light rays, and through the centers of light spots 3.1, 3.3,., 4.3, 5.1, 5 and 3, a second beam of parallel rays passes,

With a compact trickle of aperture, the bursts out of the energy cavity in these beams through the communication hole 6 ensures a narrow directivity of the output laser radiation.

In addition, the divergence of this resonator is achieved without a noticeable drop in total power. The full power of the output laser beams with the radiation power output from the resonator using a translucent mirror optimized for transmission showed that they coincide with the measurement accuracy (10%). The prototype of the invention has significantly lower power characteristics. By reducing the divergence while retaining the total radiation, the tested wide-aperture resonator with a slit in the mirror allowed the laser beam power density in the far zone to be raised by three orders of magnitude compared to a resonator having a semi-transparent mirror,

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Claims (1)

A WIDE-APERTURE LASER RESONATOR WITH MULTI-PASS MODES, consisting of flat and spherical mirrors, the distance between which is less than the radius of curvature of a spherical mirror, characterized in that, in order to reduce the divergence and increase the radiation power density without reducing the device efficiency, a communication hole is made in the flat mirror in the form a slit located from the center to the edge of the mirror and having a width h satisfying the relation h 2 - where R is the radius of the plane mirror; N is the number of double passes of the multi-pass mode. ί