APE Levante Emerald Engine Pump Laser Paladin
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?
-
Ships from:
United States
-
Sold by:
-
On FindLight:
since 2014
Description
The Levante Emerald is a cutting-edge, widely tunable, and fully automated Near-Infrared Optical Parametric Oscillator (NIR-OPO). This advanced system offers an impressive output wavelength range from 640 nm to 2300 nm, making it a versatile tool for various scientific and industrial applications. Designed to work seamlessly with a green pump laser, the Levante Emerald accommodates pulse widths between 2 to 20 picoseconds and pump powers from 2 to 20 watts. Its pulses are engineered to be close to the transformation limit, ensuring high beam quality for optimal performance.
Built with a robust mechanical design, the Levante Emerald guarantees stable long-term operation and exceptional beam stability. The system’s fully automated tuning capability simplifies operation, allowing users to easily enter the desired wavelength through the intuitive control software. With its unique feature of providing two tunable output beams with different colors (Signal and Idler), which are perfectly overlapped in space and time, the Levante Emerald is ideal for complex multi-color excitation experiments.
The Levante Emerald stands out with its full automation, including software-controlled tuning facilitated by state-of-the-art control electronics and internal diagnostic systems. The intuitive PC control software, equipped with an additional command interface via TCP/IP, allows seamless integration into larger test setups and software-controlled environments. The wavelength tuning process is straightforward, requiring only the input of the desired wavelength into the software, which is then verified by an internal high-resolution real-time spectrometer and calibrated photodiodes for power measurement.
For fast tuning over a specific wavelength range, the Levante Emerald features a sweep function that enables automatic tuning from an initial to a final wavelength in a remarkably short time. This function includes predefined hold times for spectral steps, enhancing the system's versatility. The simultaneous availability of Signal and Idler, with their perfect spatial and temporal overlap, makes the Levante Emerald an ideal choice for multi-color excitation experiments such as Stimulated Raman Scattering (SRS) and Coherent Anti-Stokes Raman Scattering (CARS).
APE Levante Emerald Engine Pump Laser Paladin
Specifications |
|
|---|---|
| Repetition Rate: | 80 MHz |
| Total Tuning Range: | 690 – 990 nm |
| Core Tuning Range: | 690 – 990 nm |
| Output Power (avg): | 20 W |
| Pulse Duration: | 15 fs |
| Idler Polarization: | Vertical |
| Signal Polarization: | Horizontal |
Features
- Tunable OPO for Green Picosecond Lasers: Levante Emerald is a widely tunable and fully automated NIR-OPO with an output wavelength range from 640 nm to 2300 nm.
- Adaptable Pump Compatibility: Works with a green pump laser with pulse widths between 2 ... 20 ps and pump powers from 2 ... 20 W.
- High Beam Quality: Pulses are close to the transformation limit, offering stable long-term operation and excellent beam stability.
- Fully Automated Tuning: Control software allows easy wavelength setting by simply entering the desired wavelength.
- Multiple Pulse Width Versions: Available in 2 ps, 6 ps, or 15 ps versions.
- Dual Output Beams: Two tunable output beams with different colors (Signal and Idler) that are overlapped in space and time. A beam separator is included.
- Ideal for Coherent Raman Imaging: Features an ideal 2 ps pulse width for applications like Coherent Raman imaging.
- Remote Access: Remote access available for customer support and error diagnosis.
- Automated Version: Full automation with software-controlled tuning, state-of-the-art control electronics, and internal diagnostic systems.
- Wavelength Tuning: Simply enter the desired wavelength into the control software. The system measures the actual wavelength and bandwidth with a high-resolution real-time spectrometer.
- Sweep Mode: Fast tuning over a specific wavelength range with predefined hold times for spectral steps.
- Multi-color Experiments: Signal and Idler are available simultaneously, ideal for multi-color excitation experiments like SRS and CARS.
- Multi-photon Microscopy: Perfect spatial and temporal overlap at the output, making it suitable for advanced microscopy techniques.
- Compatible Pump Lasers: Works with pump lasers such as the Emerald Engine at 516 nm or Coherent PALADIN Advanced at 532 nm.
- Output Power: Delivers > 0.7 W at 800 nm for 2 ps version, and > 0.9 W for other versions.
Applications
- Levante Emerald is a widely tunable and fully automated NIR-OPO. The output wavelength ranges from 640 nm to 2300 nm.
- The OPO is adaptable to work with a green pump laser with pulse widths between 2 ... 20 ps and pump powers from 2 ... 20 W.
- The pulses are close to the transformation limit and are of high beam quality. The Levante Emerald has a robust mechanical design that offers stable long-term operation and excellent beam stability.
- Fully automated tuning - 2 ps or 6 ps or 15 ps Version
- Wavelength tuning from 640 ... 2300 nm
- Control Software: Simply enter the desired wavelength
- Two tunable output beams with different colors (Signal and Idler)
- Signal and Idler beams overlapped in space and time | Beam separator included
- Ideal 2 ps pulse width for Coherent Raman imaging
- Remote access available for customer support and error diagnosis
Frequently Asked Questions
The Levante Emerald NSP is a fully automated high power NIR light source of ps pulses that is based on a synchronously pumped optical parametric oscillator (OPO), with an external green ps laser as pump.
The output wavelength ranges from 640 nm to 2300 nm.
The Levante Emerald is adaptable to work with pump pulse widths between 2 … > 20 ps.
The Levante Emerald NSP can output up to 6 W.
The Levante Emerald NSP is suitable for spectroscopy, nonlinear optics, biomedical engineering, and microscopy.