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| Laser Damage Threshold of Coating: | 7.5 J/Cm² at 1064 Nm, Tem00, 10 Ns, 10 Hz |
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Introduction
Neodymium Doped Yttrium Orthovanadate (Nd:YVO4) is the most efficient laser host crystal for diode pumping among the current commercial laser crystals, especially, for low to middle power density. This is mainly for its absorption and emission features surpassing Nd:YAG. Pumped by laser diodes, Nd:YVO4 crystal has been incorporated with high NLO coefficient crystals (LBO, BBO, or KTP) to frequency-shift the output from the near infrared to green, blue, or even UV. This incorporation to construct all solid state lasers is an ideal laser tool that can cover the most widespread applications of lasers, including machining, material processing, spectroscopy, wafer inspection, light displays, medical diagnostics, laser printing, and data storage, etc. It has been shown that Nd:YVO4 based diode pumped solid state lasers are rapidly occupying the markets traditionally dominated by water-cooled ion lasers and lamp-pumped lasers, especially when compact design and single-longitudinal-mode output are required.
| Technical Specifications | Details |
| Doping Concentration | 0.07%~3% |
| Concentration Tolerance | ±0.05% (for at% < 1%), ±0.1% (for at% ≥ 1%) |
| Crystal Orientation | A-cut/C-cut ± 0.5° |
| Dimensional Tolerances | ±0.1 mm |
| Flatness | λ/10 at 632.8 nm |
| Wavefront Distortion | λ/10 at 632.8 nm |
| Surface Quality | 10/5 per MIL-O-13830B |
| Parallelism | 10 arcseconds |
| Perpendicularity | 10 arcminutes |
| Chamfering | <0.1 mm at 45° |
| Edge Chipping | <0.1 mm |
| Clear Aperture | >95% |
| Coating | AR/HR/PR per customer specifications |
| Laser Damage Threshold of Coating | 7.5 J/cm² at 1064 nm, TEM00, 10 ns, 10 Hz |
Nd:YVO4's advantages over Nd:YAG
Laser Properties of Nd:YVO4
1. One most attractive character of Nd:YVO4 is, compared with Nd:YAG, its 5 times larger absorption coefficient in a broader absorption bandwidth around the 808 nm peak pump wavelength, which just matches the standard of high power laser diodes currently available. This means a smaller crystal that could be used for the laser, leading to a more compact laser system. For a given output power, this also means a lower power level at which the laser diode operates, thus extending the lifetime of the expensive laser diode. The broader absorption bandwidth of Nd:YVO4 which may reaches 2.4 to 6.3 times that of Nd:YAG. Besides more efficient pumping, it also means a broader range of selection of diode specifications. This will be helpful to laser system makers for wider tolerance for lower cost choice.
2. Nd:YVO4 crystal has larger stimulated emission cross-section, both at 1064 nm and 1342 nm. When a-axis cut Nd:YVO4 crystal lasing at 1064 nm, it is about 4 times higher than that of Nd:YAG, while at 1340 nm the stimulated cross-section is 18 times larger, which leads to a CW operation completely outperforming Nd:YAG at 1320 nm. These make Nd:YVO4 laser be easy to maintain a strong single line emission at the two wavelengths.
3. Another important character of Nd:YVO4 lasers is, because it is an uniaxial rather than a high symmetry of cubic as Nd:YAG, it only emits a linearly polarized laser, thus avoiding undesired birefringent effects on the frequency conversion. Although the lifetime of Nd:YVO4 is about 2.7 times shorter than that of Nd:YAG, its slope efficiency can be still quite high for a proper design of laser cavity, because of its high pump quantum efficiency.
The major laser properties of Nd:YVO4 vs Nd:YAG are listed in Table 2 below, including stimulated emission cross-sections(σ), absorption coefficient (α), fluorescent lifetime (τ), absorption length (Lα), threshold power (Pth) and pump quantum efficiency (ηS).
Table Laser Properties of Nd:YVO4 vs Nd:YAG
|
Laser Crystal |
Doping (at.%) |
σ (×10-19cm2) |
α (cm-1) |
τ (μs) |
Lα (mm) |
Pth (mW) |
ηS (%) |
|
Nd:YVO4(a-cut) |
1.0 |
25 |
31.2 |
90 |
0.32 |
30 |
52 |
|
2.0 |
25 |
72.4 |
50 |
0.14 |
78 |
48.6 |
|
|
Nd:YVO4(c-cut) |
1.1 |
7 |
9.2 |
90 |
|
231 |
45.5 |
|
Nd:YAG |
0.85 |
6 |
7.1 |
230 |
1.41 |
115 |
38.6 |
About Us:
Crystrong Photonics Technology Co., Ltd. was established in 2012. The company integrates research and development (R&D), production, and sales, covering the entire laser industry chain. It serves the global laser application field and is committed to becoming a globally influential laser industry solution provider. Crystrong excels in various crystal growth technologies. Their crystal products span the infrared, visible light, and ultraviolet bands, and they have a track record of supporting large-scale national projects. As a long-term strategic partner of renowned domestic and foreign laser manufacturers, Crystrong offers dozens of conventional pockels cell models. These models encompass a variety of crystal materials, wavelengths, and frequencies. Additionally, special pockels cell models can be customized to meet customers' diverse use environments and application requirements. Crystrong also provides coating services and a range of lens optics components, which constitute the core advantage of their entire industry chain, ensuring superior product quality and competitive pricing.
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