PowerMir 9.4µm High Power Pulsed Quantum Turnkey System 2000mW
Description
The PowerMir 9.4µm High-Power Pulsed Quantum Cascade Laser by mirSense represents cutting-edge technology tailored for demanding industrial and scientific applications. This versatile laser module is engineered to deliver exceptional performance, precision, and stability. Designed for seamless integration, it comes in a standalone packaged version, making it easy to incorporate into existing systems.
The HHL package features integrated temperature control mechanisms, including a Peltier TEC cooler and a thermistor, ensuring precise chip temperature regulation for consistent performance. Additionally, the laser is equipped with an integrated collimating lens, guaranteeing high beam quality with a Gaussian profile. Its hermetically sealed design, filled with dry N2 air, enhances long-term stability and reliability.
With optional customization available upon request, including different package configurations, the PowerMir 9.4µm laser offers flexibility to meet specific project requirements. Whether used for gas sensing, spectroscopy, environmental monitoring, or industrial process control, this laser module delivers unparalleled performance, making it an indispensable tool for researchers, engineers, and integrators alike.
PowerMir 9.4µm High Power Pulsed Quantum Turnkey System 2000mW
Specifications |
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Output Power (avg): | 2 W |
Wavelength: | 9.4 um |
Pulse Duration: | 1-1ns |
Tuning Range Around Center Wavelength: | Not Applicable |
Operational Temperature Range: | +10 to +30 °C |
Package Type: | HHL (Hermetically-sealed package) |
Temperature Control: | Integrated Peltier TEC cooler and thermistor for precise chip temperature control |
Beam Divergence: | Optional circular beam with 2.5mrad divergence |
Beam Quality: | Enhanced by collimating lens inside the package |
Manufacturing Process: | Burned-in during manufacturing to ensure long-term power and wavelength stability |
Environmental Protection: | Hermetically sealed with dry N2 air inside |
Pulse Frequency: | > 500 kHz |
Mode Of Operation: | Quasi-CW, high duty cycled pulsed |
Polarization: | Linear vertically polarized (>98%) |
Reliability: | > 3500 hours |
Features
- Available in standalone packaged version for easy integration
- HHL package with built-in TEC and thermistor for temperature control
- Integrated collimating lens ensures high beam quality (M²<1.5)
- Custom package options available upon request
- Hermetically sealed packages with dry N2 air for enhanced stability
Applications
- Gas sensing and analysis
- Spectroscopy and chemical detection
- Environmental monitoring
- Industrial process control
- Research and development
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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Ships from:
United States
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Sold by:
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On FindLight:
since 2014
Frequently Asked Questions
The PowerMir 9.4µm laser can deliver a maximum power output of 2000mW.
The laser operates in a Quasi-Continuous Wave (QCW) mode with high duty-cycled pulses.
Yes, the laser has a pulse frequency greater than 500 kHz, offering flexibility in pulse modulation.
The central wavelength of the laser is 9.4 µm, with a tolerance of +/- 0.1 µm.
Yes, the PowerMir 9.4µm laser is ITAR-free, ensuring ease of export and compliance with regulations.
Key features include high power output, QCW operation mode, reproducible manufacturing, and ITAR-free technology.
The PowerMir 9.4µm laser is ideal for a wide range of applications, including gas sensing, spectroscopy, environmental monitoring, and industrial process control.
Yes, the laser is designed for easy integration, with standalone packaged versions available for seamless incorporation into various systems.
The laser can operate in ambient temperatures ranging from +10°C to +30°C, ensuring versatility in different operating environments.
Yes, the laser comes with user-friendly Windows software for temperature and current control, as well as modulation via external TTL signals or software.