Nd:YVO4 crystal is one of the most efficient laser host crystal currently existing for diode laser pumped solid state lasers. Its large stimulated emission cross-section at lasing wavelength, high absorption coefficient and wide absorption bandwidth at pump wavelength, high laser induced damage threshold as well as good physical, optical and mechanical properties make Nd:YVO4 an excellent crystal for high power, stable and cost effective diode pumped solid-state lasers.
Main Features:
· Low lasing threshold and high slope efficiency
· Low dependency on pump wavelength
· Large stimulated emission cross-section at lasing wavelength
· High absorption over a wide pumping wavelength bandwidth
· Optically uniaxial and large birefringence emits polarized laser
Typical Applications:
· For Single-longitudinal-mode output and compact design
· Diode laser-pumped Nd:YVO4 compact laser and its frequency-doubled green, red or blue laser will be the ideal laser tools of machining, material processing, spectroscopy, wafer inspection, light show, medical diagnostics, laser printing and other most widespread applications
Specifications:
Nd Dopant Level | 0.1 - 5.0 atm% |
Standard Dimensions | 3x3x3 mm3, 3x3x1 mm3, 3x3x0.5 mm3 |
Wavefront Distortion | λ/8@ 633nm |
Scattering | Invisible, probed with a He-Ne laser |
Orientation Tolerance | ±0.5deg |
Dimensional Tolerance | ±0.1mm |
End-faces Configuration | Plano/Plano |
Flatness | λ/10 at 633 nm |
Surface Quality | 10/5 Scratch and Dig |
Parallelism | < 10 arc seconds |
Clear Aperture | > Central 90% |
Intrinsic Loss | < 0.1%cm-1 |
Physical Properties:
Atomic Density | ~1.37x1020 atoms/cm3 |
Crystal Structure | Zircon Tetragonal, space group D4h |
a=b=7.12, c=6.29 | |
Density | 4.22 g/cm3 |
Mohs Hardness | Glass-like, ~5 |
Thermal Expansion Coefficient | a=4.43x10-6/K, c=11.37x10-6/K |
Optical Properties (typically for 1.1 atm% Nd:YVO4, a-cut crystals)
Lasing Wavelengths | 914nm, 1064 nm, 1342 nm |
Thermal Optical Coefficient | dna/dT=8.5x10-6/K, dnc/dT=3.0x10-6/K |
Stimulated Emission Cross-Section | 25.0x10-19cm2 @1064 nm |
Fluorescent Lifetime | 90us @808 nm, (50us @808 nm for 2atm% Nd doped) |
Absorption Coefficient | 31.4 cm-1@808 nm |
Absorption Length | 0.32 mm@808 nm |
Intrinsic Loss | Less than 0.1% cm-1@1064 nm |
Gain Bandwidth | 0.96 nm (257 GHz) @1064 nm |
Polarized Laser Emission | p polarization, Parallel to optic axis (c-axis) |
Diode Pumped Optical to Optical Efficiency | > 60% |
Crystal Class | Positive uniaxial, no=na=nb, ne=nc, |
Sellmeier Equation | no2=3.77834+0.069736/(λ2-0.04724) - 0.0108133λ2 ne2=4.59905+0.110534/(λ2-0.04813) - 0.0122676λ2 |
Neodymium-doped yttrium vanadate (Nd:YVO4) crystal is a laser crystal with excellent performance and is suitable for manufacturing laser diode pumps, especially medium and low power lasers. Compared with Nd:YAG, Nd:YVO4 has a higher absorption coefficient and a larger stimulated emission cross-section for pump light. Now Nd:YVO4 laser has been widely used in many fields such as machinery, material processing, spectroscopy, wafer inspection, display, medical testing, laser printing, data storage and so on.
Nd:YVO4 crystal is one of the most efficient laser host crystal currently existing for diode laser pumped solid state lasers. Its large stimulated emission cross-section at lasing wavelength, high absorption coefficient and wide absorption bandwidth at pump wavelength, high laser induced damage threshold as well as good physical, optical and mechanical properties make Nd:YVO4 an excellent crystal for high power, stable and cost effective diode pumped solid-state lasers.
Main Features:
· Low lasing threshold and high slope efficiency
· Low dependency on pump wavelength
· Large stimulated emission cross-section at lasing wavelength
· High absorption over a wide pumping wavelength bandwidth
· Optically uniaxial and large birefringence emits polarized laser
Typical Applications:
· For Single-longitudinal-mode output and compact design
· Diode laser-pumped Nd:YVO4 compact laser and its frequency-doubled green, red or blue laser will be the ideal laser tools of machining, material processing, spectroscopy, wafer inspection, light show, medical diagnostics, laser printing and other most widespread applications
Specifications:
Nd Dopant Level | 0.1 - 5.0 atm% |
Standard Dimensions | 3x3x3 mm3, 3x3x1 mm3, 3x3x0.5 mm3 |
Wavefront Distortion | λ/8@ 633nm |
Scattering | Invisible, probed with a He-Ne laser |
Orientation Tolerance | ±0.5deg |
Dimensional Tolerance | ±0.1mm |
End-faces Configuration | Plano/Plano |
Flatness | λ/10 at 633 nm |
Surface Quality | 10/5 Scratch and Dig |
Parallelism | < 10 arc seconds |
Clear Aperture | > Central 90% |
Intrinsic Loss | < 0.1%cm-1 |
Physical Properties:
Atomic Density | ~1.37x1020 atoms/cm3 |
Crystal Structure | Zircon Tetragonal, space group D4h |
a=b=7.12, c=6.29 | |
Density | 4.22 g/cm3 |
Mohs Hardness | Glass-like, ~5 |
Thermal Expansion Coefficient | a=4.43x10-6/K, c=11.37x10-6/K |
Optical Properties (typically for 1.1 atm% Nd:YVO4, a-cut crystals)
Lasing Wavelengths | 914nm, 1064 nm, 1342 nm |
Thermal Optical Coefficient | dna/dT=8.5x10-6/K, dnc/dT=3.0x10-6/K |
Stimulated Emission Cross-Section | 25.0x10-19cm2 @1064 nm |
Fluorescent Lifetime | 90us @808 nm, (50us @808 nm for 2atm% Nd doped) |
Absorption Coefficient | 31.4 cm-1@808 nm |
Absorption Length | 0.32 mm@808 nm |
Intrinsic Loss | Less than 0.1% cm-1@1064 nm |
Gain Bandwidth | 0.96 nm (257 GHz) @1064 nm |
Polarized Laser Emission | p polarization, Parallel to optic axis (c-axis) |
Diode Pumped Optical to Optical Efficiency | > 60% |
Crystal Class | Positive uniaxial, no=na=nb, ne=nc, |
Sellmeier Equation | no2=3.77834+0.069736/(λ2-0.04724) - 0.0108133λ2 ne2=4.59905+0.110534/(λ2-0.04813) - 0.0122676λ2 |
Neodymium-doped yttrium vanadate (Nd:YVO4) crystal is a laser crystal with excellent performance and is suitable for manufacturing laser diode pumps, especially medium and low power lasers. Compared with Nd:YAG, Nd:YVO4 has a higher absorption coefficient and a larger stimulated emission cross-section for pump light. Now Nd:YVO4 laser has been widely used in many fields such as machinery, material processing, spectroscopy, wafer inspection, display, medical testing, laser printing, data storage and so on.