MNL 305 Pulsed UV-laser source
Description
The MNL 300 is the ideal light source for applications like fluorescence, phosphorescence and mass spectrometry in research, medical diagnostics and industry.
Compact, reliable and cost-efficient, it can provide pulse energies up to 85 µJ and repetition rates up to 80 Hz with a maximum average power of 5 mW. The MNL 300 is characterized by its long lifetime, low energy decay and high precision. This is achieved by the patented innovations:
- Sealed cartridge in metal-ceramics technology
- Directly switching solid state power switch
MNL 305 Pulsed UV-laser source
Specifications |
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|---|---|
| Wavelength: | 337.1 nm |
| Repetition Rate: | 0-50Hz |
| Pulse Energy: | 0.08 mJ |
| Pulse Width: | 3 ns |
Features
- Up to 80 Hz
- Long operating life
- Low-cost
- Compact
- Compatible with VSL337i
Applications
- For bioreader applications
- LIF spectroscopy
- Alternative to flash lamps
- MALDI-TOF MS
- Micro LIBS
- Replacement for VSL337i
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
Contact Supplier
How to order?
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Ships from:
Germany
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Sold by:
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On FindLight:
External Vendor
Claim LTB Lasertechnik Berlin GmbH Page to edit and add data
Frequently Asked Questions
The MNL 300 Pulsed UV-laser source can be used for bioreader applications, LIF spectroscopy, as an alternative to flash lamps, MALDI-TOF MS, micro LIBS, and as a replacement for VSL337i.
The MNL 300 Pulsed UV-laser source has a long operating life, low-cost, compact design, and is compatible with VSL337i.
The MNL 300 Pulsed UV-laser source can provide pulse energies up to 85 µJ and repetition rates up to 80 Hz with a maximum average power of 5 mW.
The MNL 300 Pulsed UV-laser source is ideal for applications like fluorescence, phosphorescence and mass spectrometry in research, medical diagnostics and industry.
The MNL 300 Pulsed UV-laser source can be equipped with fiber coupling and fibers, and a tuning module to provide 4 wavelengths simultaneously or sequentially.