Q-TUNE-IR Tunable IR DPSS Laser
Description
The Q-TUNE-IR series laser is meticulously designed for applications demanding precise control over a broad infrared (IR) spectrum. Spanning a wide tuning range from 1380 nm to 4500 nm, this series is engineered to deliver unparalleled performance in a diverse array of scientific, industrial, and technological environments.
Optimized Performance and Precision: Equipped with a state-of-the-art microprocessor control system, the Q-TUNE-IR offers hands-free, automated wavelength tuning, ensuring rapid and precise adjustments to meet the exacting demands of sophisticated experiments and processes. The system's ability to deliver pulse energies up to 6.5 mJ at 3500 nm, with a repetition rate of up to 10 Hz, positions it as a critical tool for applications requiring high energy and tunability within the IR spectrum.
Innovative Design for Enhanced Usability and Efficiency: The Q-TUNE-IR's water-free, air-cooled design not only minimizes operational costs and complexity but also contributes to the system's longevity and reliability. This innovative approach to cooling eliminates the need for external water chillers, simplifying the setup and reducing maintenance requirements.
Seamless Integration and Advanced Capabilities: Further enhancing its application versatility, the Q-TUNE-IR seamlessly integrates with Optical Parametric Oscillators (OPOs), expanding its operational range and utility. The system's comprehensive control features, including internal and external triggering modes, allow for synchronized operation with other experimental setups, ensuring optimal performance in complex configurations.
Q-TUNE-IR Tunable IR DPSS Laser
Specifications |
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|---|---|
| Avg. Power: | 0.02-0.065 W |
| Wavelength: | 1380-4500 nm |
| Repetition Rate: | 0.01-0.02kHz |
| Spatial Mode (M^2): | -- |
| Pulse Duration: | 3-4 ns |
| Pulse-to-Pulse Stability (RMS): | < 4.5 % |
| Cooling: | Air |
| Power Drif: | ± 3.0 % |
| Polarization: | horizontal, linear |
| Typical Beam Divergence: | <7 mrad |
| Laser Head ( W×L×H): | 390 × 620 × 153 mm³ |
| Ambient Temperature: | 15-30 ℃ |
| Relative Humidity: | 10–80 % |
| Mains Voltage: | 90–230 VAC, single phase, 47–63 Hz |
| Linewidth: | <10 cm-¹ |
Features
- Hands-free, automated tuning from 1380 to 4500 nm
- Microprocessor controlled – self-optimization/self-calibration
- Up to 6.5 mJ pulse energy @ 3500 nm @ 10 Hz
- Turnkey performance & User-friendly web interface
- Water-free – Air-cooled pump laser design
- Seamless laser and Optical Parametric Oscillator (OPO) integration
- 2 G shot pump diode lifetime
- <10 cm-¹ linewidth (≈200 cm-¹ available upon request)
- API for integration with user devices
- Internal or external triggering modes
- Separate output ports for access to pump laser wavelengths
- Low power consumption – from 50 to 100 W depending on mode
Applications
- Infrared spectroscopy
- Material processing
- Scientific 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:
since 2014
Frequently Asked Questions
The Q-TUNE-IR series offers a broad tuning range from 1380 nm to 4500 nm, accommodating a wide spectrum of infrared applications.
This series features hands-free, automated tuning controlled by a microprocessor, allowing for self-optimization and self-calibration, which simplifies operation and enhances user experience.
The Q-TUNE-IR can deliver up to 6.5 mJ of pulse energy at 3500 nm, providing significant power for demanding applications.
It employs an air-cooled pump laser design, eliminating the need for water cooling systems and thus reducing operational complexity and costs.
Yes, the series is designed for seamless integration with Optical Parametric Oscillators (OPO), enhancing its versatility across various applications.
The Q-TUNE-IR series features pulse durations ranging from 3 ns to 4 ns, suitable for a variety of time-resolved spectroscopy and imaging applications.
It offers both internal and external triggering modes, allowing for precise synchronization with external experimental setups or instruments.
The series is designed for efficiency, with power consumption ranging from 50 to 100 W depending on the model, which contributes to lower operational costs.