1mJ Lasers

Unlike continuous wave lasers, the output of these 1mJ 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 1mJ 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.

Filters Reset

Type

Wavelength Selection

Power Selection

Energy Selection

Pulse Width Selection

Rep Rate Selection

Series

Manufacturer

Picture Part Number Type Wavelength (nm) Output power (W) Pulse energy (uJ) Pulse width Rep rate Q-switch type
KAUKAS 1 Mil-Spec Lasers, Pulsed DPSS Lasers 1534 0.005 1000.0 14ns Single Shot to 5Hz Passive
VaryDisk F240 Pulsed DPSS Lasers 343, 515, 1030 150.0 1000.0 2ps, 500fs 100kHz Active

KAUKAS Series

The KAUKAS series is a compact, low-SWaP line of 1.54µm “eye-safe” Er:glass lasers. These nanosecond pulsed lasers feature a compact design that makes them suitable for integration into handheld, portable devices. The lasers deliver high pulse energy, repetition rates up to 5Hz, less than 3% energy stability, and a high-quality TEM00 beam. With configurable and customizable options, these features make the KAUKAS series a versatile choice for various applications such as LIDAR & laser ranging, LIBS, metrology, and instrumentation.

VaryDisk Series

The VaryDisk Series is a versatile family of thin-disk laser systems that provide high pulse energies at high average powers and are suitable for lab or industrial use. These thin-disk regenerative amplifiers offer a range of output specifications to fit various application needs. The base configurations provide 25 W average power with 2.5 mJ pulse energy @ 343 nm (THG), 50 W and 5 mJ @ 515 nm (SHG), and 100W and 100 mJ @ 1030 nm.