DFB laser diodes from 2600 nm to 2900 nm
Description
nanoplus is the only manufacturer worldwide routinely providing single and multi mode lasers at any wavelength from 760 to 6000 nm. At wavelengths up to 14 μm, QCLs complete nanoplus’ laser portfolio. Our patented distributed feedback laser diodes deliver single mode emission with well defined optical properties enabling a wide range of applications.
nanoplus lasers operate reliably in tens of thousands of installations worldwide, including chemical and metallurgical industries, gas pipelines, power plants, medical systems, airborne and satellite applications.
DFB laser diodes from 2600 nm to 2900 nm
Specifications |
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|---|---|
| Center Wavelength: | 2.740 um |
| Output Power: | 2 mW |
Features
- very high spectral purity
- narrow linewidth typically < 3 MHz
- excellent reliability
- wide variety of packaging options
- customer-specific designs available
Applications
- high performance gas sensing for process and environmental control
- precision metrology
- atomic clocks
- spectroscopy
- space technology
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:
Germany
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Sold by:
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On FindLight:
External Vendor
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Frequently Asked Questions
Yes, nanoplus can provide lasers with specifically optimized properties, such as higher output power, upon request.
nanoplus' laser instruments are used in high performance gas sensing for process and environmental control, precision metrology, atomic clocks, spectroscopy, and space technology.
nanoplus' DFB laser diodes feature very high spectral purity, narrow linewidth typically < 3 MHz, excellent reliability, and a wide variety of packaging options. Customer-specific designs are also available.
The typical optical output power of nanoplus' DFB laser diodes is 2 mW.
nanoplus provides single and multi mode lasers at any wavelength from 760 to 6000 nm, with QCLs completing their laser portfolio at wavelengths up to 14 μm.