Actively Q-switched UV Laser at 266 nm AO-S-266/ 1~5uJ/ 1~10mW
Description
All Laserse solid state acousto-optic Q-switched laser at 266 nm has the features of high peak power, high repetition rate, and short pulse duration, which is widely used in material processing, measure, scientific research and so on. More information about Actively laser.
Wavelength (nm) 266+-1
Operating mode Acousto-optics Q-switched
Single pulse energy (uJ) 1~5 (5uJ@1kHz;1uJ@5kHz)
Rep.rate(kHz) 0.1~5
Pulse duration (ns) Typically~ 4ns,Varies from power and repetition
Average power (mW) Average power (mW)= Single pulse energy (μJ)* Rep. rate(kHz)
Power stability (rms,over 4 hours) <3%,<5%,<10%
<!--3-->Transverse mode Near TEM00
M2 factor <2
<!--2-->Beam diameter at the aperture (mm) Elliptical (4:1), Beam spot ~1.5×0.4mm
Warm-up Time (minutes) <10
<!--10-->Beam height from base plate (mm) 30
Operating temperature (C) 10~35
Power supply (90-264VAC) PSU-AOM-DL
Expected lifetime(hours) 5000
Warranty 1year
Note: The laser head needs to be used on a heat sink with good heat dissipation.
Actively Q-switched UV Laser at 266 nm AO-S-266/ 1~5uJ/ 1~10mW
Specifications |
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|---|---|
| Avg. Power: | 0.01 W |
| Wavelength: | 266 nm |
| Repetition Rate: | 0.1-5kHz |
| Spatial Mode (M^2): | 2 |
| Pulse Duration: | 4 ns |
| Pulse-to-Pulse Stability (RMS): | <3 % |
| Cooling: | Air |
Features
All solid state acousto-optic Q-switched laser at 266 nm has the features of high peak power, high repetition rate, and short pulse duration, which is widely used in material processing, measure, scientific research and so on. More information about Actively laser.
Applications
DPSS Laser
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
- Direct contact with supplier
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How to order?
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Ships from:
United States
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Sold by:
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On FindLight:
since 2021
Frequently Asked Questions
The wavelength of the laser is 266 nm.
The operating mode of the laser is acousto-optics Q-switched.
The single pulse energy range of the laser is 1-5 μJ.
The average power of the laser is calculated by multiplying the single pulse energy (μJ) with the repetition rate (kHz).
The expected lifetime of the laser is 5000 hours.