Patent ID: 9106054
Filing Date: 2015-08-11
Classification: G02B,H01S

Abstract:
1. A laser beam combining and power scaling device, comprising: a plurality of laser heads arranged in parallel; said plurality of laser heads emitting radiation; a plurality of respective optical axes aligned with respective ones of said plurality of laser heads; a plurality of first highly reflective mirrors residing perpendicularly with respective ones of said plurality of said optical axes and behind respective ones of said plurality of said laser heads; a plurality of second highly reflective mirrors residing perpendicularly with respective ones of said plurality of optical axes; a plurality of beam splitters arranged at an incidence angle with respect to respective ones of said optical axes and residing intermediate said respective ones of said plurality of laser heads and said plurality of second highly reflective mirrors; a common laser output axis; said plurality of beam splitters directing respective first portions of radiation emitted from said plurality of laser heads along said common laser output axis and said plurality of beam splitters directing respective second portions of said radiation emitted from said plurality of laser heads along said respective ones of said optical axes toward said plurality of second highly reflective mirrors; a common output axis highly reflective mirror residing perpendicularly along said common laser output axis; said plurality of second highly reflective mirrors residing perpendicularly with respective ones of said plurality of optical axes reflecting said respective plurality of second portions of said radiation emitted from said plurality of laser heads along said respective ones of said optical axes toward said respective ones of said beam splitters; said plurality of beam splitters directing respective first portions of radiation emitted from said respective ones of said plurality of second highly reflective mirrors along said common output axis toward said common output axis highly reflective mirror residing perpendicularly to said common output axis and said plurality of beam splitters directing respective second portions of radiation emitted from said respective ones of said plurality of second highly reflective mirrors toward said respective ones of said plurality of laser heads; said common output axis mirror reflecting said respective first portions of radiation received from said plurality of second highly reflective mirrors toward said plurality of beam splitters; said plurality of said beam splitters directing a plurality of first portions of radiation from said common output axis highly reflective mirror and said first portions of radiation emitted from said plurality of laser heads along said common laser output axis; a plurality of first Q-switches residing in respective ones of said plurality of said optical axes between said respective ones of said laser heads and said plurality of said first highly reflective mirrors; a first control device, said first control device varies the timing, frequency and duration of the actuation of said first Q-switches and modulates said first Q-switches simultaneously, providing a short duration, high power radiation pulse in said common laser output axis, and said high power radiation pulse is the sum of the power produced by said laser heads.