Er, Cr, Yb: Glass
Er,Cr,Yb:Glass For 1535nm Laser
Size: Φ5*130mm;
Coating: S1, AR@1535±5nm, R<0.2%;S2, PR@1535±5nm, T=27%±1%;
Er,Cr,Yb:Glass For 1535nm Laser
Size: Φ4*80mm, Φ2.5*35mm;
Coating: S1/S2, AR@1535 nm, R<0,2% ;
Damage Threshold >10 J/cm2 @ 1535 nm ;
Er,Cr,Yb:Glass Case (3) For 1535nm Laser
Size: Ø4×105 mm;
Unpolishing blank rod;
Barrel finish: 45-65 micro inc
Er,Cr,Yb:Glass Case (4) For 1535nm Laser
Custom grown blank rod
Size: Ø4×105.5 mm;
CA: >95%
Erbium Glass doped with Er3+, Yb3+ and Cr3+, Erbium doped glass laser provides a useful coherent source in the spectral range near 1.5 μm, which is relatively safe for the human eye and is convenient in many applications, such as lidar and range measurements, fiber-optic communication, and laser surgery. In spite of the considerable progress in the development of InGaAs laser diode pump sources, Xe flashlamp will continue to be used as pump sources of Er:glass lasers because of their high reliability and low cost, and also the simplicity of design of such systems. Since about half the flashlamp radiation energy is emitted in the visible and near infrared (IR) ranges, a second sensitizer Cr3+ is introduced into Yb-Er laser glasses to utilize this energy.
- High laser efficiency
- Low laser threshold
- Safe for human eye
- High light conversion
- Lidar
- Range measurements
- Fiber-optic communication
- Laser surgery
| Characteristics of Er and Er–Yb–Cr doped phosphate microsphere fibre lasers Optics Communications 282 (2009) 3765–3769 |
| INVESTIGATION OF ENERGY PARAMETERS OF LASER USING LPHS-E CR-YB-ER GLASS CA0L.2005, 12-7Septeber2OO, Ya/t, Crmeo, Ukl76 |
| Bulk Er:Yb:glass soliton femtosecond laser MONDAY MORNING / CLEO 2001 / 3 |
| Polarization switching of an Er :Yb :Cr” phosphate glass microchip laser ANN. TI~LECOMMUN., 52, n ~ I 1-12, 1997 |
| Spectroscopic and laser properties of Cr 3+ : Yb 3+ : Er 3+ :fluoride phosphate glass Optical and Quantum Electronics 22 (1990) S107-S122 |
| Optimization of passively Q-switched Er:Yb:Cr:phosphate glass laser: theoretical analysis and experimental results Appl. Phys. B 86, 293–301 (2007) |
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Er,Cr,Yb:Glass – Cr14
Size: Φ4.03×81 mm
Er,Cr,Yb:Glass – CrE5
Size: Φ4×108 mm
Er,Cr,Yb:Glass – CrE5
Size: Φ4×108 mm
Want to get more information about what kind of Er,Cr,Yb:Glass crylink have supplied?
Parameter
| Materials | Cr14 | CrE5 |
| Mass Density | 3.10 g/cm3 | 2.95 g/cm3 |
| Mohs Hardness | 8.5 | 8.5 |
| Young’s Modulus | 57.6 GPa | 57.6 GPa |
| Tensile Strength | 2 GPa | 2 GPa |
| Melting Point | 1970°C | 1970°C |
| Thermal Conductivity | 0.7 | 0.8 |
| Specific Heat/(J·g-1·K-1) | 0.59 | 0.59 |
| Thermal Shock Resistance Parameter | 800 W/m | 800 W/m |
| Thermal Coeff. of Optical Path Length (10-7 /ºC)(20~100ºC) | 3.6 | |
| Coeff.of Linear Thermal Expansion (10-7 /K) (20~100℃) | 103 | 80.5 |
| Coeff.of Linear Thermal Expansion (10-7 /K) (100~300℃) | 127 | 87 |
| Softening Temp. (ºC) | 493 | 519 |
| Transformation Temp. (ºC) | 455 | 476 |
| Chemical Durability (weigh loss rate at 100ºC distilled water) (μg/hr.cm2 ) | 103 | |
| dn/dT (10-6 /ºC) (20~100ºC) | -5.2 | -6.8 |
| Refractive Index @ 1535 nm | 1.53 | 1.533 |
| Refractive Index (d589.3nm) | 1.539 | 1.541 |
| Abbe Value | 64 | 63.6 |
| Optical Density | 0.1 to 0.8 |
| Fluorescence Lifetime | 7.7-8.2 ms |
| Concentrations | 0.5 mol % ~ 3 mol % |
| Emission Wavelength | 1535 nm |
| Absorption Coefficient | 1.0 cm-1 ~ 7 cm-1 |
| Emission State Absorption Cross Section | 0.75×10-20 cm2@1535nm |
| Transmission | 10% to 90% |
| Coatings | AR≤ 0.2% @1535nm |
| Damage Threshold: | > 500 MW / cm2 |
| Orientation Tolerance | < 0.5° |
| Thickness/Diameter Tolerance | ±0.05 mm |
| Surface Flatness | <λ/8@632 nm |
| Wavefront Distortion | <λ/4@632 nm |
| Surface Quality | 10-5(MIL-O-13830A) |
| Parallel | 10〞 |
| Perpendicular | 15ˊ |
| Clear Aperture | >90% |
| Chamfer | <0.1×45° |
| Maximum Dimensions | dia (3-12.7)×(3-150)mm2 |
