Title :
Shallow angle beam combining using a broad-band XeF laser
Author :
Smith, M.J. ; Trainor, Daniel W. ; Duzy, Carolyn
Author_Institution :
Avco Res. Lab., Everett, MA, USA
fDate :
5/1/1990 12:00:00 AM
Abstract :
Experiments in which two xenon fluoride laser pump beams (353 nm) were crossed at an angle of 2.5 mrad in a 565-cm-long Raman amplifier containing high-pressure (10-atm) hydrogen are described. Bisecting the angle made by these two pump beams was a seed beam at the vibrational Stokes shifted wavelength of 414 nm. This seed beam was generated from a portion of the pump beam that was split off and brought to focus in a separate Raman seed generator. All three beam paths were adjusted so they arrived in the main Raman amplifier at the same time. For the 1.4-Å (FWHM) xenon fluoride pump radiation this required path offset precision to within 0.2 mm over many meters of optical path. The beam quality of the resulting amplified Stokes beam was determined through shearing interferometry techniques to be near the diffraction limit, whereas the pump beams had significant optical distortion
Keywords :
hydrogen; optical pumping; stimulated Raman scattering; 10 atm; 353 nm; 414 nm; 565 cm; Raman amplifier; Raman seed generator; XeF laser pump beams; amplified Stokes beam; beam paths; beam quality; broad-band XeF laser; diffraction limit; high pressure H2; optical distortion; optical path; path offset precision; seed beam; shallow angle beam; shearing interferometry techniques; vibrational Stokes shifted wavelength; Hydrogen; Laser beams; Laser excitation; Optical amplifiers; Optical distortion; Optical interferometry; Optical pumping; Pump lasers; Stimulated emission; Xenon;
Journal_Title :
Quantum Electronics, IEEE Journal of
