Nd: KGW(Nd-doped potassium gadolinium tungstate) – Laser Crystal – Gain Medium – Customized Products
Nd: KGW crystal is a kind of laser crystal that can realize high concentration doping.Because the crystal can be mixed with high concentrations of Nd ions and has a large emission area, its monopulse and low-repeat laser performance is better than Nd: YAG. The absorption band of Nd: KGW crystal is at 808 nm, which can effectively couple with LD pump source (emitting wavelength is 808 nm) to improve its luminous efficiency. Moreover, its half height and width of 12 nm makes it able to accommodate the drift of LD emission wavelength with temperature, which is conducive to conducting diode pumped KGw laser experiment and device research. Nd: KGW can not only realize free oscillation, Q switching, mode locking operation, but also realize Raman conversion.
Nd:KGW crystal—A crystal can be generated from excited Raman scattering and become a multi-wavelength light source in visible band after frequency doubling.
The Raman characteristics of Nd:KGW crystal depend on its high excited beam cross section, low pumping threshold, high output energy, high conversion efficiency, and two high Raman gain coefficients (768 and 901 cm-1).Since the fundamental frequency light of Raman crystal is 911 nm, 1067 nm and 1351 nm, the red, yellow and blue light of 0.455 um, 0.533 um and 65 um can be produced after frequency multiplication, which can be used in material processing, optical communication, tele-sensing, medicine, environmental monitoring, precision measurement and other fields.
Note:
$100 is a deposit, not the final price of the product. Please contact us for price if needed.
Features
High doping concentration
Highly excited cross section
High Raman gain coefficient
Good coupling with LD
Wide absorption bandwidth
Low lasing threshold
Physical Properties
Nd Concentration | 2.2%(cw),3%(quasi-cw) |
Fluorescence Lifetime | 130 μs |
Stimulated Emission Cross Section | 3.7*10-19 cm2 |
Transition Wavelength | 1067 nm |
Thermal Conductivity | Ka=2.6 W/Km |
Kb=3.8 W/Km | |
Kc=3.4 W/Km | |
dn / dT | 0.4*10-6 K-1 |
Refractive Index@ 1.06μm | np=1.978 |
nm=2.014 | |
ng=2.049 | |
Thermal Expansion Coefficient | (100):4*10-6 K-1 |
(010):3.6*10-6 K-1 | |
(001):8.5*10-6 K-1 | |
Density(g * cm-3) | 7.248 |
Specific Heat Capacity Cp | 500 Jkg-1K-1 |
Spectral Properties
Laser Wavelength (nm) | 1067 |
Emission Cross-section (pm2)2 | 32.3 |
Gain Bandwidth (nm) | 2.73 |
Fluorescence Lifetime (μs) | 110 at 3% doping |
Thermal conductivity (Wm-1K-1) | ~3 |
Absorption and Emission Spectra