Title :
Development of a continuous-wave, deep-ultraviolet, and single-frequency coherent light source-challenges toward laser cooling of silicon
Author :
Kumagai, Hiroshi
Author_Institution :
Dept. of Appl. Phys., Osaka City Univ., Japan
Abstract :
Laser cooling techniques of silicon may be a powerful tool to create a new silicon road map. In the first step, to realize the laser cooling of neutral silicon atoms highly efficient frequency conversions are conducted to obtain a deep-ultraviolet single-mode coherent light using two-stage external cavities. The 154-mW power at around 252 nm is obtained with a conversion efficiency of more than 8% by doubly resonant sum-frequency mixing of 373-nm light from the first-stage conversion and 780-nm light from a single-mode Ti:sapphire laser. This paper reviews a series of challenges for taking possession of the spatial design of nuclear spins of the family of stable isotopes with laser cooling of silicon.
Keywords :
laser cooling; multiwave mixing; optical frequency conversion; quantum optics; silicon; solid lasers; titanium; ultraviolet sources; 154 mW; 252 nm; 373 nm; 780 nm; Al2O3:Ti; Si; Ti:sapphire laser; coherent light source; continuous-wave light source; deep-ultraviolet light source; doubly resonant sum-frequency mixing; first-stage conversion; frequency conversions; laser cooling; neutral silicon atoms; nuclear spins; single-frequency light source; single-mode laser; stable isotopes; two-stage external cavities; Atom lasers; Atomic beams; Cooling; Frequency conversion; Isotopes; Optical design; Power lasers; Resonance; Roads; Silicon;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2004.837716
