Quantas-Q2HE-1064 High Energy Compact Nanosecond DPSS Laser
Description
The Quantas-Q2HE-1064 series represents the cutting edge in Diode-Pumped Solid State (DPSS) laser technology, meticulously designed to deliver high-energy pulses at the fundamental infrared wavelength of 1064 nm. Capable of producing high peak power pulses with energy levels up to 70 mJ and average power outputs up to 4W at repetition rates reaching 100 Hz, this series is engineered for applications that demand intense, precise infrared pulses.
Optimized Performance for Advanced Applications: Crafted to meet the stringent requirements of applications such as precision material processing, LIDAR, and scientific research, the Quantas-Q2HE-1064 series offers high peak power pulses, ensuring efficient interaction with diverse materials. The series is characterized by its high-speed triggering capabilities and minimal jitter (<0.5 ns RMS), making it suitable for synchronized operations and time-critical applications.
Innovative Design for Enhanced Integration: The Quantas-Q2HE-1064 series features an air-cooled, compact design, emphasizing efficiency and user-friendliness, which allows for straightforward integration into various setups without the necessity for complex cooling systems. Despite its high-energy output, the series maintains a turnkey operation, enhanced by a user-friendly graphical user interface (GUI) for ease of control and monitoring.
Quantas-Q2HE-1064 High Energy Compact Nanosecond DPSS Laser
Specifications |
|
|---|---|
| Avg. Power: | 4 W |
| Wavelength: | 1064 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: | 40 to 100 mJ |
| Power Drift: | ± 3.0 % |
| Beam Divergence: | <1 mrad |
| Polarization: | linear, horizontal |
| Jitter (RMS): | <0.5 ns |
| Q-switch Type: | Active |
| 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 °C |
| Relative Humidity (non-condensing): | 10 – 80 % |
| Mains Voltage: | 90 – 230 VAC, single phase, 47 – 63 Hz |
| Lifetime Of Pump Diodes: | > 2 G shots |
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
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- 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 delivers pulse energies up to 70 mJ, offering substantial power for precision applications.
The series features pulse durations shorter than 8 ns and can operate at repetition rates up to 100 Hz.
With high-speed triggering, low jitter, and air-cooled design, the series is designed for ease of use and seamless integration into various systems.
Ideal for precision material processing, LIDAR, and scientific research, the laser's IR output is particularly valuable for applications requiring deep material interaction and high precision.
Built with a long-life pump diode (>2 Giga-shots) and an air-cooled design, the series minimizes maintenance while enhancing durability.
Yes, it features internal or external triggering modes, allowing for precise synchronization with external experimental setups or instruments.
The series is efficient, with power consumption tailored to its compact and energy-efficient design, contributing to its cost-effectiveness and environmental friendliness.