Nd YAG one of the mature developed laser crystals which is obtained by doping Nd ion into YAG crystal. The absorption bandwidth of Nd YAG laser crystal are 730-760 nm and 790-820 nm, and usually pumped by flashtube or laser diode. The typical laser emission peak is 1064 nm, the wavelength of 946 nm, 1120 nm, 1320 nm and 1440 nm lasers can be emitted too through some measures, Q-switch and lock mode are adapted to obtain laser with different wavelength (532 nm, 266 nm, 213 nm etc.) and pulse width (10-25 ns) respectively, which makes the huge application in biophysics, medicine, military, machine, scientific research and architecture etc. Commonly, the high concentration doped crystal is applied into pulse laser and the low concentration doped one is usually used in continuous wave output.

Make Use Of Nd YAG Laser For Industrial Purpose

Our Crystal Crylink is a leading manufacturer by doping Nd YAG laser crystals with ion. It takes a good absorption depends on bandwidth for Nd YAG. It meets usually carry out with flash tube or laser diode. It is very effective as well as delivering high-quality results forever. It easily adapts with huge application depends on research patterns. It is most commonly happen with depth crystal with pulse effect. Of course, it is concentrated with respectively developed with biophysics as well as so on. It is typically made with an emission peak that has high range effects to industrial purposes.

Turns With A Technology Base

Nd YAG crystals usually pumped with lots of laser emission peak enable with lock mode. It respectively takes place an important configuration for accessing with a flash tube or laser diode. Thus, it considers effective role to find out pulse width as well as others. Doped crystals are made for low concentration. It usually grabs it basically on laser with different wavelengths. It gains a coefficient that turns out with latest technologies. They are well adapted by discovering mechanical and physical properties. It takes a wide absorption bandwidth by delivering excellent optical sources. Low lasting threshold with a high gain coefficient is accessing with optical sources.