RU2015119098A - High gain laser amplifier with high average and peak power and high output beam quality - Google Patents

Abstract

1. A laser amplifier with a high gain, high average and peak power, and high output beam quality, including at least one pump diode-based laser diode, acting as a waveguide for pump radiation, an elongated axially symmetric solid-state element with two circular end faces that serve to introduce radiation into the solid-state active element and output radiation from the solid-state active element that contacts the side a surface with a layer of material providing waveguide propagation of pump radiation, a cooling system for the side surface of a solid-state active element, an optical system for introducing pump radiation into a solid-state active element, an optical system for introducing amplified laser radiation into a solid-state active element, and at least one dichroic mirror for the spatial separation of pump radiation and amplified laser radiation, characterized in that the solid-state act the explicit element is made in the form of a truncated direct circular cone, while the optical system for introducing pump radiation into the solid-state active element is located on the side of its circular end face, which is the large base of the truncated direct circular cone, and the optical system for introducing amplified laser radiation into solid-state active the element is located on the side of its circular end face, which is the smaller base of the truncated straight circular cone. 2. Laser amplifier

Claims (4)

1. A laser amplifier with a high gain, high average and peak power, and high output beam quality, including at least one pump diode-based laser diode, acting as a waveguide for pump radiation, an elongated axially symmetric solid-state element with two circular end faces that serve to introduce radiation into the solid-state active element and output radiation from the solid-state active element that contacts the side a surface with a layer of material providing waveguide propagation of pump radiation, a cooling system for the side surface of a solid-state active element, an optical system for introducing pump radiation into a solid-state active element, an optical system for introducing amplified laser radiation into a solid-state active element, and at least one dichroic mirror for the spatial separation of pump radiation and amplified laser radiation, characterized in that the solid-state act the explicit element is made in the form of a truncated direct circular cone, while the optical system for introducing pump radiation into the solid-state active element is located on the side of its circular end face, which is the large base of the truncated direct circular cone, and the optical system for introducing amplified laser radiation into solid-state active the element is located on the side of its circular end face, which is the smaller base of the truncated straight circular cone. 2. The laser amplifier with a large gain, high average and peak power and high quality output beam according to claim 1, characterized in that the layer of material that provides waveguide propagation of pump radiation is made of metal. 3. The laser radiation amplifier with a large gain, high average and peak power and high quality of the output beam according to claim 1, characterized in that the material layer providing the waveguide propagation of the pump radiation is a dielectric sheath with a smaller than that of a solid-state active element, refractive index, and the optical system for introducing pump radiation into a solid-state active element is designed so that the angle of incidence of the pump radiation on the side surface of the active element yl larger than the critical angle of total internal reflection. 4. The laser radiation amplifier with a large gain, high average and peak power and high quality of the output beam according to claim 1, characterized in that the layer of liquid circulating in the cooling system acts as a layer of material providing waveguide propagation of pump radiation lower refractive index than the active element, and the optical system for introducing pump radiation into the solid-state active element is designed so that the angle of incidence of the pump radiation on the side surface the active element was greater than the critical angle of total internal reflection.