bbo crystal conversion efficiency
This article discusses the second-harmonic generation (SHG) of tightly focused fs laser pulses in a BBO crystal. It was found theoretically and demonstrated experimentally that the spatial walk-off (SWO) and group-velocity dispersion (GVD) effects can suppress the pulse distortion and gain depression of SHG due to group-velocity mismatch (GVMM), thus keeping a reasonable pulse waveform and conversion efficiency simultaneously in a relatively wide tuning range. Using this approach, the SHG efficiency of a 2 mm long BBO crystal in a reflecting focusing geometry was enhanced significantly.
Demonstration of high conversion efficiency to second harmonic in a wide tuning range
bbo crystal conversion efficiency
Efficient UV output (205nm-310nm) with a SHG efficiency of over 10% at wavelength of ≥206nm was obtained in bbo crystal type 1, and 36% conversion efficiency was achieved for a XeC1-laser pumped Dye laser with power 150KW which is about 4-6 times higher than that in ADP. The shortest SHG wavelength of 204.97 nm with efficiency of about 1% has been generated in BBO.