RU2006137981A - SOLID SOLID MONOPULSE LASER AND TWO-WAVE LASER GENERATOR - Google Patents

Claims (18)

1. A solid-state monopulse laser containing an unstable telescopic optical resonator, including an output mirror, the reflection coefficient of which decreases in the direction from the center to the edge, a cylindrical active element placed in the specified optical resonator, a pump system for laterally supplying optical pump radiation to the active element and a modulator placed in an optical resonator for controlled formation of laser radiation pulses by modulating the quality factor of the optical resonator, o Leach in that the pump system is designed as a homogeneous system nefokusiruyuschey optical pumping to create a substantially uniform distribution of the pumping intensity within the cross section of the active element, the parameters of the active element and optical resonator satisfy the following relations:

where R _m is the reflection coefficient of the output mirror at the maximum; X is the gain of the active element, in cm ^-1 ; ρ is the total loss in the optical resonator attributed to the doubled length of the active element in cm ^-1 ; d is the width of the distribution of the reflection coefficient of the output mirror at a level of 0.5 from the maximum value; D is the diameter of the active element; l is the length of the active element; M is the increase in the telescopic resonator. 2. The solid-state monopulse laser according to claim 1, characterized in that the output mirror of the optical resonator has a Gaussian distribution of the reflection coefficient. 3. The solid-state monopulse laser according to claim 1 or 2, characterized in that the pump system contains laser diode arrays or arrays mounted on one side of the active element along its cylindrical generatrix. 4. The solid-state monopulse laser according to claim 3, characterized in that the pump system includes a reflector that directs at least a portion of the pump radiation transmitted through the active element or past the active element to the active element. 5. The solid-state monopulse laser according to claim 4, characterized in that said reflector is made in the form of a monolithic block transparent for pump radiation, in which at least a part of the side surface not illuminated externally by said laser diode arrays or arrays is coated , and which has an internal longitudinal channel into which said active element is placed. 6. The solid-state monopulse laser according to claim 5, characterized in that the outer side surface of said monolithic block is in the form of a direct prism, wherein said laser diode arrays or arrays are installed near one of its side faces, and said reflective coating is applied to at least one from the remaining side faces. 7. The solid-state monopulse laser according to claim 5, characterized in that it includes a conductive heat sink installed in thermal contact with at least a part of that part of the outer side surface of said reflector that is not illuminated externally by said laser diode arrays or arrays. 8. A two-wave laser generator including a master optical generator for generating optical radiation with a first wavelength, optical switching means having an optical input connected to the output of the master optical generator, a first output connected to the output of the specified two-wave laser generator, a second output and a control input for controlling optical switching means so as to optionally connect the optical input to the first or second output, and a parametric light generator for converting optical radiation with a first wavelength into optical radiation with a second wavelength, the input of which is connected to the second output of the optical switching means, and the output is connected to the output of the indicated two-wave laser generator, characterized in that the master optical generator is made in the form of a solid-state monopulse laser one at a time from claims 1-7. 9. The two-wave laser generator according to claim 8, characterized in that the parametric light generator contains a three-mirror ring resonator. 10. The two-wave laser generator according to claim 9, characterized in that it includes a reverse telescope to reduce the diameter of the radiation beam with the first wavelength, installed between the output of the master optical generator and the input of the parametric light generator, and a direct telescope to increase the diameter of the radiation beam from the second the wavelength established between the output of the parametric light generator and the output of the specified two-wave laser generator. 11. The two-wave laser generator of claim 10, wherein the increase in said direct telescope is essentially equal to the increase in said inverse telescope. 12. The two-wave laser generator according to claim 10, characterized in that at its output the divergence of the radiation beam with the first wavelength is essentially equal to the divergence of the radiation beam with the second wavelength. 13. The two-wave laser generator according to claim 10, characterized in that it also includes a direct telescope for increasing the diameter of the radiation beam with a first wavelength, installed between the first output of the optical switching means and the output of the specified laser generator, and the specified reverse telescope is installed between the output of the master optical generator and optical input means of optical switching. 14. The two-wave laser generator according to item 13, wherein the increase in these direct telescopes and reverse telescopes is such that at the output of the specified laser generator, the diameter of the radiation beam with the first wavelength is essentially equal to the diameter of the radiation beam with the second wavelength. 15. The two-wave laser generator according to claim 13, characterized in that said optical switching means include a polarizing electro-optical key installed between the output of said inverse telescope and said three-mirror ring resonator for controlled rotation of the plane of polarization of radiation with a first wavelength of 90 °, and said A direct telescope for increasing the diameter of a radiation beam with a first wavelength is installed so that radiation with a first wavelength reflected from the annular ring is received at its input about three-mirror resonator. 16. The two-wave laser generator of claim 8, characterized in that it further includes a half-wave phase plate for rotating the plane of polarization of the transmitted radiation through 90 °, installed between the output of the parametric light generator and the output of the two-wave laser generator or between the first output of the optical switching means and the output two-wave laser generator. 17. The two-wave laser generator of claim 8, characterized in that it includes an output dichroic mirror, as well as additional reflective and / or refractive optical elements for directing a radiation beam with a first wavelength and a radiation beam with a second wavelength to the output dichroic mirror so that one of these beams passes through the output dichroic mirror, and the other is reflected from it, and these beams exit the laser generator in essentially one direction. 18. A two-wave laser generator according to one of claims 8 to 17, characterized in that the first wavelength lies in the range of about 1 μm, and the second wavelength lies in the range of about 1.5 μm.