Air-Cooled Argon Laser System 600BL
Description
The 600 argon laser has been engineered to meet today's most demanding needs for the mid-power range in OEM applications. Designed in a rectangular package, the 600 provides unparalleled beam quality that is constant across output power levels and through fiber delivery systems. The 600 also offers improved thermal stability, longer life and low electronic and optical noise. The laser incorporates the latest in internal mirror tube technology securing permanent beam alignment and eliminating contamination. NLC’s design permits ease of servicing and simple, drop-in laser tube replacement.
Air-Cooled Argon Laser System 600BL
Specifications |
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|---|---|
| Type: | Argon |
| Wavelength (nm): | 488 nm |
| Output Power (W): | 0.04 W |
| Mode Quality (M^2): | <1.2 |
| Beam Diameter (mm): | 0.7 mm |
| Beam Divergence (Full Angle) (mrad): | 1 mrad |
| Polarization: | Not Specified |
| Cooling: | Air |
Features
- Superior Beam Quality
- Low Noise
- Internal Mirror Design
- Extended Lifetime
- Designed for Fiber Optic Delivery
- Exceptional Warranty
Applications
- Ultra High Speed Laser Printing
- Optical Disk Mastering
- Flow Cytometry
- DNA Sequencing
- Confocal Microscopy
- Spectroscopy
- Hematology
- Basic Research
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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How to order?
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Ships from:
United States
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Sold by:
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On FindLight:
External Vendor
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Frequently Asked Questions
The wavelength of the Air-Cooled Argon Laser System 600BL is 488nm.
The power stability of the laser over 2 hours is ±1%.
The warm-up period for the laser is 10 minutes.
The noise level of the laser is 0.1% (20Hz - 2kHz peak to peak), 1.0% (20Hz - 20kHz peak to peak), and 1.0% (20Hz - 2MHz rms).
Some applications of the Air-Cooled Argon Laser System 600BL include ultra high speed laser printing, optical disk mastering, flow cytometry, DNA sequencing, confocal microscopy, spectroscopy, hematology, and basic research.