YAG+Nd:YAG+Cr4+:YAG Diffusion Bonded Crystals by Toptec
Description
Diffusion Bonded Crystals are crystals consisting of two, three or more parts with different dopant levels. Usually, doped and undoped materials are used. Difussion Bonded Crystals are used to decrease thermal lensing effect considerably. This bonding technology in laser applications can not only greatly improve the laser performance and beam quality, but also conducive to the intergration of laser systems and access to large-size crystal.
YAG+Nd:YAG+Cr4+:YAG Diffusion Bonded Crystals by Toptec
Specifications |
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Type Of Crystal: | Nd:YAG, Cr:YAG, Other |
Crystal Diameter: | N/A mm |
Crystal Length: | 200 mm |
AR Coating: | One side, Both sides |
Features
- Decrease thermal effect
- Improve efficiency
- High damage threshold
- Improve beam quality
- Compact size
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
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Ships from:
China
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Sold by:
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On FindLight:
External Vendor
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Frequently Asked Questions
Diffusion Bonded Crystals are crystals consisting of two, three or more parts with different dopant levels. Usually, doped and undoped materials are used.
Nd:YAG crystal is the most early and mature laser material adopted by R&D, medical, industrial and military customers. It is the ubiquitous presence for near-infrared solid-state lasers and their frequency-doubler, tripler, and higher order multiplier.
The main types of Diffusion Bonded Crystals are Zircon and YAG+Nd:YAG+Cr4+:YAG.
Nd:YVO4 crystal is one of the most excellent laser host materials, it is suitable for diode laser-pumped solid state laser. Compactly designed Nd3+ :YVO4 lasers with green, red and blue light output are really perfect means for material processing.
Diffusion Bonded Crystals are used to decrease thermal lensing effect considerably. This bonding technology in laser applications can not only greatly improve the laser performance and beam quality, but also conducive to the intergration of laser systems and access to large-size crystal.