Title :
Optically Pumped Semiconductor Lasers for Precision Spectroscopic Applications
Author :
Alford, W.J. ; Fetzer, G.J. ; Epstein, R.J. ; Sandalphon ; Van Lieu, N. ; Ranta, S. ; Tavast, Miki ; Leinonen, Tomi ; Guina, M.
Author_Institution :
Aret Assoc., Longmont, CO, USA
Abstract :
Optically pumped semiconductor lasers in conjunction with intra-cavity frequency conversion and tuning elements offer high continuous-wave power, narrow linewidth, and broad tunability. As a result, they are well suited to precision spectroscopic applications. We describe the development and testing of optically pumped semiconductor lasers operating at fundamental wavelengths of 1119 and 1178 nm. The fourth and second harmonic wavelengths are resonant with transitions in Mg II and Na I, respectively. We demonstrate continuously tunable, single-frequency lasers with watt-level average power at 1119, 1178, and 589 nm.
Keywords :
laser tuning; optical frequency conversion; optical pumping; semiconductor lasers; continuously tunable single-frequency lasers; harmonic wavelengths; high continuous-wave power; intra-cavity frequency conversion; optically pumped semiconductor lasers; precision spectroscopic applications; tuning elements; wavelength 1119 nm; wavelength 1178 nm; wavelength 589 nm; Cavity resonators; Laser excitation; Laser tuning; Pump lasers; Vertical cavity surface emitting lasers; Lasers; optical harmonic generation; quantum well laser; semiconductor lasers; surface emitting lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2013.2270912
