Quantas-Q2HE-266 High Energy Compact Nanosecond DPSS Laser
Description
The Quantas-Q2HE-266 series is a Diode-Pumped Solid State (DPSS) laser designed for precise delivery of high-energy pulses at the 266 nm ultraviolet wavelength. This series achieves pulse energies ranging from 1.5 mJ to 5 mJ with pulse durations under 8 ns and a repetition rate up to 10 Hz, suitable for diverse scientific and industrial applications requiring UV light.
Technical Specifications and Utility: This series is optimized for applications that necessitate the unique properties of ultraviolet light, such as photolithography, spectroscopy, and material processing. The 266 nm wavelength offers significant advantages in terms of material interaction and resolution, making this series a valuable tool in environments where precision is paramount.
Design and Integration Features: The Quantas-Q2HE-266 maintains an air-cooled design, eliminating the need for external cooling systems and simplifying integration into existing setups. The system's compactness and efficiency are designed to meet the demands of laboratories and industrial environments where space and energy consumption are considerations.
Operational Efficiency and Reliability: The series is engineered for reliable operation with minimal maintenance requirements. It features high-speed triggering and a jitter of less than 0.5 ns RMS, facilitating synchronization with other instruments and ensuring precise timing in applications. The inclusion of a long-life pump diode enhances the system's durability and operational lifespan.
Control and Monitoring: Equipped with a user-friendly graphical interface, the Quantas-Q2HE-266 series allows for straightforward control and monitoring. Remote diagnostics and control capabilities are available via an Ethernet connection, providing flexibility in operation and maintenance.
Quantas-Q2HE-266 High Energy Compact Nanosecond DPSS Laser
Specifications |
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|---|---|
| Avg. Power: | 4 W |
| Wavelength: | 266 nm |
| Repetition Rate: | 0.01-0.1kHz |
| Spatial Mode (M^2): | -- |
| Pulse Duration: | <7 ns |
| Pulse-to-Pulse Stability (RMS): | 0.5 % |
| Cooling: | Air |
| Pulse Energy: | 5 – 15 mJ |
| Power Drift: | ± 3.0 % |
| Polarization: | Linear, horizontal |
| Jitter (RMS): | < 0.5 ns |
| Transmission Range: | 1 – 95 % |
| Laser Head (W×L×H): | 190 × 408 × 155 mm³ |
| Controller Unit (W×L×H): | 108 × 191 × 59 mm³ |
| AC/DC Power Adapter, Typical (W×L×H): | 89 × 422 × 330 mm³ |
| Ambient Temperature: | 15 – 30 ℃ |
| Relative Humidity (non-condensing): | 10 – 80 % |
| Mains Voltag: | 90 – 230 VAC, single phase, 47 – 63 Hz |
| Lifetime Of Pump Diodes: | > 2 G shots |
| Beam Divergence: | <1 mrad |
Features
- Fundamental Wavelength Options: 1053nm & 1064nm
- Harmonic Generation: Optional 2nd/3rd/4th/5th
- Peak Power: Up to 120mJ
- Average Power: Up to 4W
- Repetition Rate: Up to 100Hz
- High-speed Triggering
- Jitter: 0.5ns RMS
- Remote Monitoring & Diagnostics
- User-friendly GUI
Applications
- Laser microprocessing
- Semiconductor inspection
- Micromachining
- UV-induced fluorescence
- Spectroscopy
- Photochemistry
- Nanotechnology
- UV lithography
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
This series offers pulse energies ranging from 1.5 mJ to 5 mJ, catering to high-energy applications.
The laser produces pulses with widths under 8 ns and operates at repetition rates up to 10 Hz.
The laser utilizes an air-cooled design, negating the need for external cooling systems and simplifying installation.
Yes, its compact design and high-speed triggering capabilities make it easily integrable with a variety of scientific and industrial equipment.
The laser is built with a robust design, including a long-life pump diode, ensuring reliable performance with minimal maintenance.
Yes, the Quantas-Q2HE-266 can be equipped with optional pulse energy monitors and attenuators to provide precise control over laser output.