Ti^3+:Sapphire crystal laser rods/slabs/wafers
Description
Titanium doped sapphire(Ti3+:Al2O3) is widely used for tunable lasers and femtosecond solid-state lasers. It was first used as a gain medium in 1986, and till now, it is still the best material for ultrashort pulse generation. The substrate-sapphire has good physical and optical properties. High thermal conductivity and good alleviating thermal effects provide the usability for high power laser.
Ti^3+:Sapphire crystal laser rods/slabs/wafers
Specifications |
|
|---|---|
| Type Of Crystal: | Ti:Sapphire |
| Crystal Diameter: | 1-157 mm |
| Crystal Length: | 1-27 mm |
| AR Coating: | Uncoated |
| Chemical Formula, Crystal: Activator: | Ti:Al2O3:Ti3+ |
| Ti2O3 Concentration: | as required |
| Orientation Of Crystal: | optical axis C normal to rod axis,homogeneous C-axis direction along |
| End Configuration: | Brewster cut or rectangular cut as required |
| Tolerances: | Diameter ±0.01mm, Thickness ±01mm |
| Barrel Surface: | Fine ground, Polished |
| Coating: | as required |
| Parallelism: | 10 arcsec |
| Flatness: | λ/10 |
| Surface Quality: | 10/5 scratch/dig or better |
Features
- Large gain-bandwidth
- Short excited-state lifetime (3.2 μs)
- Excellent thermal conductivity
- High saturation power
- High damage threshold
Applications
- Two-Photon Microscopy
- Multi-Channel Fluorescence Images of 3D Volumes
- Photo-stimulation and Uncaging
- Label-Free Imaging via Multiphoton Auto-fluorescence and SHG
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2019
Frequently Asked Questions
The Ti:Sapphire crystal laser rod is used for tunable lasers and femtosecond solid-state lasers.
The Ti:Sapphire crystal laser rod has a large gain-bandwidth, short excited-state lifetime, excellent thermal conductivity, high saturation power, and high damage threshold.
The Ti:Sapphire crystal laser rod is used in two-photon microscopy, multi-channel fluorescence imaging of 3D volumes, photo-stimulation and uncaging, and label-free imaging via multiphoton auto-fluorescence and SHG.
The refractive index of the Ti:Sapphire crystal laser rod at a wavelength of 1535nm is 1.530.
The thermal conductivity of the Ti:Sapphire crystal laser rod at 25ºC is 0.75 W/m K.