SU1026104A1 - Forming telescope - Google Patents

Abstract

1. A FORMING TELESCOPE, containing a main concave and secondary convex mirror, is K-L because, in order to increase the radiation directivity of an annular coherent light source due to the redistribution of energy from the side lobes to the central one, the main mirror is made translucent and He installed a phase corrector for the WAVE front, made in the form of a zone phase plate. 2. The forming telescope according to claim 1, characterized in that the main mirror is made with a variable transmittance along the radius, y

Description

The invention relates to optical instrumentation and can be used in laser technology. A lens telescope is known that can be used as a forming telescope, i.e. narrowing radiation pattern. The decrease in the divergence in it is due to an increase in the geometric dimensions of the beam by a factor of Γ, where Γ is an increase in the telescope l. However, the known telescope is not able to redistribute energy between the lobes of the radiation pattern in the case of a coherent source in the form of an annular gap. A forming telescope is known that contains a main concave and convex mirror 2J. However, this telescope is also not capable of redistributing energy between the lobes of the radiation pattern in the case of an annular coherent radiation source, which makes it impossible to obtain a high directivity of the radiation of an annular coherent light source. The purpose of the invention is to increase the radiation directivity of a coherent circular light source due to the redistribution of energy from the side lobes of the radiation pattern central. The goal is achieved by those in the forming telescope containing the main concave and secondary convex mirrors, the main mirror is made Translucent, and the phase front of the wave front, made in the form of a zone phase plate, is installed. In addition, the main mirror is made with a radial-variable transmission coefficient. The drawing shows the principal optical design of the telecom. The device contains a main concave mirror 1, a secondary convex mirror 2, a phase corrector 3. The device {Works as follows. Radiation 4 from the annular source falls on the main mirror 1 / and then partially passes and partially reflects in the direction of the secondary mirror 2. After reflection, remaining in the radiation telescope stt mirror 2, this process is repeated many times to fill the entire area. main mirror 1 ,. After the radiation output after the main mirror 1, a phase front wavefront corrector is installed, which compensates phase bi5e distortions that occur when radiation passes through the substrate of the main mirror 1 and also after each radiation pass inside the telescope, resulting in a flat wave front, the diameter of which equal to the diameter of the aperture of the main mirror. The convex mirror 2 in the proposed device can be made aspherical, which makes it possible to compensate for the aberrations of the main mirror 1. The transmittance of the main mirror can be a function of the coordinate /. aperture. When the telescope of the proposed telescope is used, the share of energy redistributed in the central lobe can be increased to 83% of the energy corresponding to the central lobe when the plane wave is diffracted by a circle. Scrap Holes.

Claims (2)

1. FORMING TELESCOPE containing the main concave and secondary convex mirror, about t l. and 4 ^ k GO С5, which, in order to increase the directivity of the radiation of the annular coherent light source due to the redistribution of energy from the side lobes to the central one, the main mirror is made translucent, and behind it there is a wavefront phase corrector made in the form of a zone phase plate. 2. Forming telescope in π. 1, characterized in that the main mirror is made with a variable radius transmittance