SPECIAL LASER
OPTICAL PARAMETRIC OSCILLATOR OPO
Description
With our novel intracavity OPO technology, we have built a large number of these OPO lasers producing 1.5um to 3.4um outputs and power from 0.5W to 10W with pulse widths of ~10 to 15ns for applications such as eye safe illumination, defense range finding and biophotonic research.Photonics Industries novel intracavity OPO Series ns lasers can also provide mJs of pulse energy pulsed at kHz rep rates at any fixed wavelength selectable from the following wavelength ranges:
3.4um to 2.2um
2um to 1.5um (e.g., 1.7um)
1um to 750nm
666nm to 255nm
all with a TEM00 spatial mode profile. Such lasers are applicable to medical techniques such as photoacoustic (PA) ultrasound medical imaging, photoacoustic tomography, 3D photoacoustic microscopy, UV surface excitation microscopy, laser surgery, etc.
optical parametric oscillator - opo
The Resonance Ionization Laser Ion Source (RILIS) is a powerful tool for efficient and selective production of radioactive ion beams at Isotope Separator On Line (ISOL) facilities. To avoid isobaric background, highly selective stepwise resonant ionization is applied, using up to three different laser wavelengths. Due to their advantages in terms of stability and reliability, an all solid-state titanium:sapphire (Ti:Sa) system is used at the majority of on-line facilities worldwide.
Tu Series TEM00 tunable Ti:Sapphire laser’s pulse width is perfectly matched to the lifetime of many fluorophores (i.e., ~10ns). With its Broad Tuning Range of ~700 to 900nm over the “Blood window”, High prf up to 10KHz and high average power of >1W, this makes the Tu laser a valuable tool for cell visualization and other novel biomed imaging applications, such as photoacoustics (PA).
Multi-Photon Spectroscopy
Atmospheric Research
OH Radical Concentration Measurement
Laser Induced Fluorescence (LIF)
LIDAR
Mass Spectrometry
MALDI
Raman Spectroscopy
Resonance Raman
CARS – freq domain spectroscopy with the narrower linewidths of our TU laser
Non-Contact Inspection
Time Resolved Spectroscopy
Planar Laser Induced Fluorescence (PLIF) – with twin pulse mod
specification
applications
- Glass Cutting, engraving and drilling.
- Through Glass Via (TGV) and interposer processing.
- Semiconductor and Microelectronics Processing.
- Precision Micromachining of metals and ceramics.
- Medical Device Manufacturing.
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Foils and Films for Batteries and Superconductor.
Key Features
- Up to ~500µJ Pulse Energy at 600kHz
- True TEM00 Output, M2 <1.3
- Ultra-Short Pulse Widths (10ps @1064nm)
- Dynamic Pulse Energy Control – PEC
- Position Synchronized Output – PSO
- Robust & Compact Form Factor
- Power Monitoring and Self-Calibration