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500uJ Lasers
Unlike continuous wave lasers, the output of these 500uJ pulsed lasers cannot be specified by their output power alone. This is because the output power of a pulsed laser is determined by three different parameters, the laser’s pulse width, pulse energy, and pulse repetition rate.
On this page, we have a list of all of the 500uJ lasers offered by RPMC. If you don’t see a laser with the parameters needed, most of our lasers can be modified for your needs.
If you need help selecting the best laser for your application, or defining the laser requirements for a specific application, please contact our product manager for assistance.
| Picture | Part Number | Type | Wavelength (nm) | Output power (W) | Pulse energy (uJ) | Pulse width | Rep rate | Q-switch type |
|---|---|---|---|---|---|---|---|---|
|
neoMOS | Pulsed DPSS Lasers, Ultrafast Lasers | 1064 | 5.0, 15.0, 50.0, 75.0, 100.0 | 250.0, 400.0, 500.0 | 600fs, 700fs, 900fs, 10ps, 40ps, 70ps, 100ps | Single shot to 80MHz | |
|
neoYb | DPSS Amplifiers | 1030 | 100.0 | 50.0, 500.0 | 700fs, CW |
The neoMOS ultrashort pulse laser series is a reliable, low-maintenance system designed for 24/7 industrial use. The ultra-compact laser head has the smallest footprint available and can be customized for a range of laser parameters, allowing easy integration and flexibility with various demanding processing applications, including glasses and plastics. It offers pulse widths from 700fs to 70ps, repetition rates from single-shot to 80MHz, up to 500µJ pulse energy, average output powers up to 100W, multi-megawatt peak powers, and perfect TEM00 beam quality @ 1064nm.
The neoAMP series includes the neoVAN and neoYb DPSS laser amplifiers, designed to boost the average power or pulse energy for various applications. The flexible system design ensures high scalability, and the ultra-compact modules are easy to integrate into existing processing or scientific systems. The neoVAN and neoYb amplifiers are highly reliable and offer proven long-term stability, enabling a range of applications that include high peak power, short pulse picosecond lasers for micromachining, or single-frequency radiation for gravitational wave detection.