Title :
Fiber lasers, a future technology for lasers in space
Author :
McMahon, John M.
Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
The constraints of operation in space have largely precluded the use of conventional solid-state laser systems for applications including remote sensing, communication relays and active laser radars. A new technology, fiber lasers, may offer all of the needed features at an affordable price. An appealing aspect of the fiber laser is that it does not need a rigid optical bench. Only the output end of the fiber need be held in rigid reference to the optical tracking system. Design, fabrication and testing of the laser resonator is generally the most expensive and longest lead part of the effort for conventional solid-state lasers. Advances in fiber optic technology and devices mean that the “fiber laser” need not be a simple device but may be a complex system employing sophisticated technology such as wavelength selective Bragg reflectors and nonlinear optical frequency shifters. Three companies have recently obtained single-mode outputs of 35-40 watts at 1.03-1.1 microns
Keywords :
aerospace; fibre lasers; laser beam applications; optical frequency conversion; optical links; optical radar; optical tracking; optical transmitters; remote sensing by laser beam; space communication links; spaceborne radar; 1.03 to 1.1 micron; 35 to 40 W; Yb fibre lasers; active laser radars; communication relays; double clad type; fiber laser technology; nonlinear optical frequency shifters; remote sensing; single-mode outputs; space applications; ultra-high power lasers; wavelength selective Bragg reflectors; Fiber lasers; Fiber nonlinear optics; Laser radar; Optical fiber communication; Optical fiber testing; Optical resonators; Optical sensors; Remote sensing; Solid lasers; Space technology;
Conference_Titel :
Aerospace Conference, 1998 IEEE
Conference_Location :
Snowmass at Aspen, CO
Print_ISBN :
0-7803-4311-5
DOI :
10.1109/AERO.1998.687895
