I'm not sure if you have the same problem, but I repaired our Q-switching element on an old Nd:YAG system not that long ago. Our q-switch was controlled by an electrically driven device called a Pockell cell. If I remember right, a large electrical pulse causes a change in the birefringence of the crystal windows, which are made of a solid material called potassium dideuterium phosphate (I think they refer to it as K*DP). In this relatively old laser (circa 1988) we found that a fluid inside had dried out. The fluid is only used for refractive index matching, and serves no active purpose in the q-switch activity. We found good information here: http://www.clevelandcrystals.com/nmatch.htm We called the manufacturer and found out we needed decalin. The company wanted a few hundred dollars for a few mLs. Instead, we went to Fisher Scientific and bought the stuff for a much better price (~$30 for about 100 mL). There was a small port on the side of the Pockell cell, and we just used a syringe to inject a bit of decalin until the cell was refilled. After a few other modifications, the laser has worked fine ever since (in both free running and q-switch modes). -Adam Rowland University of Texas Dept. of Chem. Christopher Romanek wrote: > Dear listmembers, > > We have a Merchantek (New Wave) UP213 laser ablation system that is in need of repair. Apparently, our q-switch has a lifetime (3 to 5 yrs) that we have exceeded. It uses a liquid crystal that dries out over time. The cost for repairing the unit by the vendor is $10K to $15K. > > Has anyone had a similar problem? If so, any insights or advise would be greatly appreciated concerning ways to fix the unit more economically (third party repairs, etc...) > > Sincerely, > > Chris Romanek > University of Georgia >