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| Categories | Laser Crystals |
|---|---|
| Place of Origin: | China |
| Brand Name: | CRYLINK |
| Certification: | Iso9001 |
| MOQ: | 1 Pieces |
| Price: | negotiation |
| Packaging Details: | Carton |
| Delivery Time: | 3-4 weeks |
| Payment Terms: | TT |
| Supply Ability: | 100 pieces /month |
| Model Number: | CRYLINK-Yb KGW Laser Crystal |
| Name: | Laser Crystal Yb:KGW |
| Chemical formula: | potassium gadolinium tungastate |
| Crystal structure: | monoclinic double tungstates |
| Density: | 7.27 g/cm3 |
| Transmission range: | 0.35-5.5 m |
| Mohs hardness: | 4 to 5 |
Laser Crystal Yb:KGW
Yb3+: KGd(WO4)2 (Yb:KGW) is one of the most promising laser active materials. Yb:KGW crystal is expected to replace Nd:YAG crystal and Yb:YAG crystal in high power diode pumped laser system. Yb:KGW also has great potential for high power, short pulse time femtosecond lasers and their wide application.
The simple two-level electronic structure of the Yb ion avoids undesired loss processes such as upconversion, excited state absorption, and concentration quenching. Compared to the commonly used Nd:YAG crystal, Yb:KGW crystal has a much larger absorption bandwidth, 3 or 4 times longer emission lifetime in similar hosts with enhanced storage capacity, lower quantum defect and is more suitable for diode pumping than the traditional Nd-doped systems. The smaller Stokes shift reduces heating and increases the laser efficiency. In comparison with other Yb doped laser crystals such as Yb:YAG and Yb:YCOB crystals, Yb:KGW has a much higher (13-17 times) cross-section of absorption, lower quantum defect (~4%), a cross-section of emission that is 9 times higher than Yb: YCOB, and an emission band that is broader than Yb:YAG, a high nonlinear coefficient of refraction, and the highest slope efficiency (87%).
| Chemical formula | potassium gadolinium tungastate |
| Crystal structure | monoclinic double tungstates |
| Density | 7.27 g/cm3 |
| Transmission range | 0.35-5.5 m |
| Mohs hardness | 4 to 5 |
| Refractive indices at 1060 nm | ng = 2.037, np = 1.986, nm=2.033 |
| Thermal conductivity | Ka=2.6 W/mK, Kb=3.8 W/mK, Kc=3.4 W/mK |
| Thermal optical coefficient @1064 nm | dnp/dT=-15.7 * 10-6 K-1 |
| dnm/dT=-11.8 * 10-6 K-1 | |
| dng/dT=-17.3 * 10-6 K-1 | |
| Thermal expansion | a=4X10-6 /°C |
| b=3.6X10-6 /°C | |
| c=8.5X10-6 /°C | |
| Melting temperature | 1075 °C |
| Absorbtion cross section | 1.2X10-19 cm2 |
| Stimulated emission cross section (E| |a) | 2.6X10-20 cm2 |
| Laser wavelength | 1023-1060 nm |
| Lasing threshold | 35 mW |
| Stark levels energy (in cm-1) of the 2F5/2 manifolds of Yb3+ @ 77 K | 10682, 10471, 10188 |
| Stark levels energy (in cm-1) of the 2F7/2 manifolds of Yb3+ @ 77K | 535, 385, 163, 0 |
| optical damage threshold, GW/cm2 | 20 |
Absorption peak wavelength, lpump, [nm] | 981.2 |
Absorption linewidth, Dlpump, [nm] | 3.7 |
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