Abstract: A fluid-cooled laser amplifier module (100) is disclosed which comprises: a casing; a plurality of slabs (110) of optical gain medium oriented in parallel in the casing for cooling by a fluid stream (154, 156); a polarisation rotator (120) disposed between a first group of one or more slabs (111) of the optical gain medium and a second group of one or more slabs (112) of the optical gain medium; optical windows (150, 152) for receiving an input beam or pulse (130) for amplifying by the slabs and for outputting the amplified beam or pulse (140); and fluid stream ports (155, 157) for receiving and discharging the fluid stream for cooling the slabs.

Abstract: A method of aligning an optical component in a laser system using diffraction patterns of alignment references includes: placing a first alignment reference in the path of a laser beam upstream of an optical component, the first alignment reference having first reference features forming a first diffraction pattern when illuminated by the laser beam; placing a second alignment reference in the path of the laser beam downstream of the first alignment reference and the optical component, the second alignment reference having second reference features forming a second diffraction pattern when illuminated by the laser beam; illuminating the alignment references and optical component with the laser beam; monitoring the combined diffraction pattern of the reference features of the alignment references downstream of the second alignment reference; and adjusting the relative position and/or orientation of the optical component towards the combined diffraction pattern indicating alignment of the optical component to t

Abstract: A fluid-cooled laser amplifier module (100) is disclosed which comprises: a casing; a plurality of slabs (110) of optical gain medium oriented in parallel in the casing for cooling by a fluid stream (154, 156); a polarisation rotator (120) disposed between a first group of one or more slabs (111) of the optical gain medium and a second group of one or more slabs (112) of the optical gain medium; optical windows (150, 152) for receiving an input beam or pulse (130) for amplifying by the slabs and for outputting the amplified beam or pulse (140); and fluid stream ports (155, 157) for receiving and discharging the fluid stream for cooling the slabs.

Abstract: A method of aligning an optical component in a laser system using diffraction patterns of alignment references includes: placing a first alignment reference in the path of a laser beam upstream of an optical component, the first alignment reference having first reference features forming a first diffraction pattern when illuminated by the laser beam; placing a second alignment reference in the path of the laser beam downstream of the first alignment reference and the optical component, the second alignment reference having second reference features forming a second diffraction pattern when illuminated by the laser beam; illuminating the alignment references and optical component with the laser beam; monitoring the combined diffraction pattern of the reference features of the alignment references downstream of the second alignment reference; and adjusting the relative position and/or orientation of the optical component towards the combined diffraction pattern indicating alignment of the optical component to t