Hello everyone, first time poster here but I have a question regarding the dye cell.
My dye cell I constructed is using glass slides, and I fully expect them to crack under q-switch pulses as opposed to long pulses, but I'm going to try it anyways as a first run before I go and buy a nice cuvette dye cell, but the question pertains to both the cheapo as well as how to go about ensuring the nice one wont fail under heavy use.
The lasers I have here are a spectra physics Quanta Ray which puts out ~400mJ/pulse at 60Hz (2x30Hz) at 532nm and also have the 355nm harmonic crystal installed (200mJ/p). The second is a New Wave Pegasus PIV (~10mJ/pulse) @ 20,000hz (10kx2) @ 527nm.
My question is about the dye cell. At very high power at 532nm, is there a need to cool the dye at all. A lot of energy is going out at the other wavelength, but should I still be concerned about the dye temperature? A simple sink, or circulator are what I had in mind.
Another question is at the 355nm, if I am not using quartz, but instead borosilicate which will absorb ~10% of the UV, I'd be safe in assuming I might put a nice crack right along my laser line due to thermal shock? Does anyone have experience with using a UV source for an 'el cheapo' dye cell?
Thanks
My dye cell I constructed is using glass slides, and I fully expect them to crack under q-switch pulses as opposed to long pulses, but I'm going to try it anyways as a first run before I go and buy a nice cuvette dye cell, but the question pertains to both the cheapo as well as how to go about ensuring the nice one wont fail under heavy use.
The lasers I have here are a spectra physics Quanta Ray which puts out ~400mJ/pulse at 60Hz (2x30Hz) at 532nm and also have the 355nm harmonic crystal installed (200mJ/p). The second is a New Wave Pegasus PIV (~10mJ/pulse) @ 20,000hz (10kx2) @ 527nm.
My question is about the dye cell. At very high power at 532nm, is there a need to cool the dye at all. A lot of energy is going out at the other wavelength, but should I still be concerned about the dye temperature? A simple sink, or circulator are what I had in mind.
Another question is at the 355nm, if I am not using quartz, but instead borosilicate which will absorb ~10% of the UV, I'd be safe in assuming I might put a nice crack right along my laser line due to thermal shock? Does anyone have experience with using a UV source for an 'el cheapo' dye cell?
Thanks
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