As low as 300ps durations
Up to 200kW per pulse
Free running up to 130kHz
Triggerable to 4kHz
Gaussian, TEM00, M²≤1.2
Typically dissipates <10W from laser head and consumes <20W
High reliability pump diode, specialty optics, and sealed package contribute to MTTF up to over 20 years and expected lifetimes exceeding up to 30,000 hours (consult factory for details)
- Exclusive license on Passively Q-switched Picosecond microchip lasers:
US Patent 5394413
- License on fiber lasers and amplifiers:
US Patent 5818630
Teem Photonics proposes the largest standard offer of passively Q-switched microlasers.
These diode pumped microchip solid state lasers are distinctive for their subnanosecond pulses allowing to achieve the highest peak powers out of compact and rugged packages.
>> Find your solution in our full range of products :
We are pleased to introduce a significant extension of the Infra Red product range with several innovative solutions :
Teem Photonics MNE and MNP series are our most compact IR microchip lasers. They integrate the pump diode, the micro-cavity and even the second harmonic generation crystal in a package less than 7cm long.
The 1064nm engine produces sub-nanosecond pulses with several kW peak power, achieving over 50% second harmonic generation efficiency at 532nm.
The 1535nm micro-laser offers similar performances with a few nanoseconds pulse duration.
The controllers allow the user to drive the laser emission on and off but also to remotely monitor the laser status.
For generating high peak power IR pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. Sub-nanosecond 1064nm pulses are indeed directly generated from the diode pumped passively Q-switched Nd:YAG microchip engine. Microchips are also easy to operate and service ; controllers can be used with every laser head model and swapped within minutes while conserving constant performances.
The SNP series are designed for high average power, either from pulse energies of 20µJ at 1064nm, or from repetition rates up to 130kHz.
The triggered STP series offer the highest peak power and shortest pulses of the entire Microchip family. With these devices, the user is able to trigger pulse emission on demand from single-shot to 4kHz using the dedicated MP1 controller series.
The PowerChip™ passively Q-switched MicroChip lasers offer the highest peak powers and shortest pulses at kilohertz repetition rates with an excellent beam quality. They feature a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, and turnkey package.
Furthermore, the PowerChip is a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, turnkey package
The PicoFlash™ series combines ultra-high repetition rate and exceptional pulse characteristics to provide the best price/quality ratio for precise micromachining and biomedical applications.
Passively Q-Switched (PQS) microchip laser technology and fiber amplification are brought together, delivering multi-kW pulses train and exceptional beam quality in an air-cooled and compact package.
This Master Oscillator Fiber Amplifier (MOFA) architecture notably offers a full control over the pulse energy (or peak power) while leaving unchanged the pulse shape and pulse duration.
The PicoSpark™ series combines multi-watt output level with high repetition rate and exceptional pulse characteristics to provide the best price/quality ratio for micromachining application.
Passively Q-Switched (PQS) microchip laser technology and fiber amplification are brought together, delivering pulses with hundreds of kilowatt peak power and hundreds of gigawatt per square centimeter power density in a sealed and air-cooled compact package.
This Master Oscillator Fiber Amplifier (MOFA) architecture notably offers a full control over the pulse energy (or peak power) while leaving unchanged the pulse width and pulse shape.
The laser finder will help you to find your pulsed laser solution.
If you need more information or something different from what you find here, please contact us so we can provide you with more detailed assistance.