A design of diode-pumped Nd.YAG laser with a single crystal that generates simultaneous laser action at the wavelengths of 1064 nm and 1319 nm was presented and continuous-wave (CW) of 588.9 nm was obtained for the ...A design of diode-pumped Nd.YAG laser with a single crystal that generates simultaneous laser action at the wavelengths of 1064 nm and 1319 nm was presented and continuous-wave (CW) of 588.9 nm was obtained for the first time by use of type-I critical phase-matching LBO crystal intracavity sumfrequency mixing. The maximum output power of 62 mW is achieved with an incident pump power of 1.8 W. The optical-to-optical conversion efficiency is up to 3.4% ,and the power instability in 24 h is better than ± 2.7 %.展开更多
The development of diode-pumped all solid state laser (DPSSL) and its applications are reviewed. Along with the development and flourish of semiconductor lasers, DPSSLs have made remarkable headway in output power, be...The development of diode-pumped all solid state laser (DPSSL) and its applications are reviewed. Along with the development and flourish of semiconductor lasers, DPSSLs have made remarkable headway in output power, beam quality, new wavelength and so on, and they are in widespread use today. The most prevalent use of the DPSSL is probably in scientific research, medicine and display. DPSSL is also used in many other applications including optical communications, laser measurement, national military defense and laser alignment.展开更多
文摘A design of diode-pumped Nd.YAG laser with a single crystal that generates simultaneous laser action at the wavelengths of 1064 nm and 1319 nm was presented and continuous-wave (CW) of 588.9 nm was obtained for the first time by use of type-I critical phase-matching LBO crystal intracavity sumfrequency mixing. The maximum output power of 62 mW is achieved with an incident pump power of 1.8 W. The optical-to-optical conversion efficiency is up to 3.4% ,and the power instability in 24 h is better than ± 2.7 %.
文摘The development of diode-pumped all solid state laser (DPSSL) and its applications are reviewed. Along with the development and flourish of semiconductor lasers, DPSSLs have made remarkable headway in output power, beam quality, new wavelength and so on, and they are in widespread use today. The most prevalent use of the DPSSL is probably in scientific research, medicine and display. DPSSL is also used in many other applications including optical communications, laser measurement, national military defense and laser alignment.
