RU2003120867A - METHOD FOR EXCITING PULSE LASERS ON SELF-LIMITED TRANSITIONS OF METAL ATOMS OPERATING IN THE SELF-HEATING MODE AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (4)

1. The method of excitation of pulsed lasers on self-limited transitions of metal atoms operating in the self-heating mode, which consists in the formation with each excitation pulse of one additional pulse with a constant energy input into the active element, characterized in that under the conditions of stabilized plasma parameters provided by the constancy of the parameters of the excitation pulse and additional impulse, control of the energy characteristics of generation is performed by pulsed change of location Modes pulse with respect to the excitation pulse, and for providing the laser generation mode an additional pulse is formed after the excitation pulse, and for generating a blanking mode laser additional pulse is formed before the excitation pulse, the energy of the additional pulse must be sufficient only to populate metastable laser levels metal atoms. 2. The method according to claim 1, characterized in that the pulse advance time and the pulse lag time of the additional pulse, measured from the beginning of the excitation pulse, must be less than the lifetime of the metastable laser levels. 3. The method according to claim 1 or 2, characterized in that the stabilization of the plasma parameters is further adjusted by adjusting the lead time and the lag time of the additional pulse. 4. A device for exciting pulsed lasers on self-limited transitions of metal atoms operating in a self-heating mode, comprising a laser tube, a cathode and a grounded anode which are shunted by an inductance, a resonator, first and second switches, first and second capacitive energy storage devices, the outputs of which are combined and connected to the cathode of the laser tube, an adjustable high-voltage power source, the common output of which is connected to the grounded cathodes of the first and second switches, a trigger pulse generator, and also the first and second adjustable delay lines, characterized in that the device is additionally introduced the first and second anode reactors, the first pulse submodulator, the second pulse submodulator, unregulated delay line, as well as an electronic relay and controller, the anode of the first switch connected to the input of the first capacitive energy storage through the first anode reactor, the anode of the second switch is connected to the input of the second capacitive energy storage through the second anode reactor, the first output is adjustable a juice supply is connected to the input of the first capacitive energy storage, the second output of the adjustable high voltage power supply is connected to the input of the second capacitive energy storage, while the first and second capacitive energy storage are made in the form of nonlinear artificial forming lines with lumped parameters, in addition, the first output of the generator triggering pulses are connected to the input of an adjustable high-voltage power source, and the second output of the trigger pulse generator is connected nen with the input of the unregulated delay line, and the output of the unregulated delay line is connected to the input of the first adjustable delay line and, through the normally closed contacts of the electronic relay and the second pulse submodulator, with the control electrode of the second switch, the output of the first adjustable delay line is connected to the input of the second adjustable delay line and , through the first pulse submodulator, with the control electrode of the first switch, the output of the second adjustable delay line, through normally open contacts s electronic relay and a second pulse podmodulyator also connected to the control electrode of the second switch, wherein the electronic relay contacts controlled by a controller or other external output devices.