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1030nm IR Laser Diodes with Diode Pumped Solid State (DPSS) or Continuous Wave (CW) technology.
The Matchbox series offers excellent performance and reliability in the “World’s Smallest” ultra-compact, all-in-one, integrated laser head. They can operate on a 5V power supply while maintaining low noise operation. The monolithic design of the Matchbox Series laser includes thermally stabilized optics in a hermetically sealed housing, ensuring reliable and maintenance-free operation. This series is available in wavelengths from 405 nm thru 1064nm, with options for collimated beam or fiber-coupled output, and single-mode and multimode versions.
The Halite 2 series is a compact, single-box, all-fiber femtosecond laser designed to meet the most demanding applications in neuroscience, biophotonics, microscopy, and engineering. With pulses as short as <250 fs (< 100 fs op.), average power over 2 W at 1030 nm, and the option of second harmonic at 515 nm, it is an irreplaceable tool in every lab that needs a reliable, turn-key, ultrafast light source. Thanks to its unique construction and SESAM-free technology, it is a cost-effective solution that provides high pulse energy (over 100 nJ), excellent beam quality, and easy integration.
The Jasper series is a diverse set of high-performance femtosecond fiber lasers providing different solutions based on a standard technology. The series includes the high-power Jasper X0 (200 µJ pulse energy / 60 W average power), the compact Jasper Micro (5 µJ pulse energy / 7 W average power) in a space-saving design, and the Jasper Flex for microprocessing (30 µJ pulse energy). Each model provides a fast warm-up time, long-term stability, and hands-free operation. Whether you need high power, compactness, or specific processing capabilities, the Jasper series has a solution.
The LDX Series of made-in-the-US, high-power, multimode laser diodes provide wavelengths from 400nm – 1900nm, a wide range of output powers and package types, as well as completely customized solutions. We have been offering these high-quality laser diodes for over 25 years. The performance, reliability, and lifetimes are time tested, and if for some reason there is an issue, we will make it right.
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.
The One Series is an ultra-compact, rugged, versatile, nanosecond pulsed (up to 200µJ), passive q-switch laser series designed for OEM integrators and application specialists working with industrial and portable applications. These lasers provide sufficient peak power for extremely high-quality metal & plastic marking in compact & portable marking systems or for airborne LIDAR. With its compact & efficient contact-cooled package, attractive pricing, optional CW operation with up to 4 W average power, and configurable options & add-ons, this 1030nm series offers easy, flexible integration possibilities and exceptional, cost-effective performance for a range of applications.
The R series of wavelength-stabilized single-mode and multimode laser diodes offer narrow linewidth output in wavelengths from 633nm thru 1064nm, with output powers up to 5 W. This highly customizable series offers package options ranging from components as basic as a TO-56 or 14-pin BF packaged diodes to OEM modules, including electronics, to UL/CE and IEC-certified turn-key systems. The R series is the perfect source for various markets, including chemical analysis, bio-medical, fiber laser, and scientific applications.
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.