1300nm Lasers, specifically Diode-Pumped Solid-State (DPSS) Lasers, utilize a built-in nonlinear wavelength conversion stage to achieve a shifted fundamental wavelength of Nd:YLF laser material, as opposed to the more traditional 1053nm wavelength.
These high-power, nanosecond, near-infrared (NIR) lasers are available with free-space output and a variety of pulse energies depending on the applications needs. Typical applications for these NIR Lasers include Laser Induced Breakdown Spectroscopy, Time-of-Flight Spectroscopy, 3D Scanning, LIDAR, and more.
|Picture||Part Number||Type||Wavelength (nm)||Output power (W)||Mode||Output||Linewidth||Pulse energy (uJ)||Pulse width||Rep rate|
|Diadem 1300||Pulsed DPSS Lasers, Ultrafast Lasers||1300||2.0||1.0||150fs||Single shot to 2MHz|
|Quantas-Q-SHIFT-1300||Pulsed DPSS Lasers||1300||0.300, 0.480, 0.600||2000.0, 4000.0, 8000.0, 12000.0, 16000.0, 20000.0||2ns - 5ns||10Hz, 20Hz, 33Hz, 50Hz, 100Hz|
The DIADEM series is a compact, versatile, air-cooled, high-energy, ultrafast femtosecond laser, operating at 1030 or 1064 nm for advanced micro-machining applications. Available with up to 40µJ of pulse energy, pulse widths down to ≈ 400 fs, an M² < 1.2, and single-shot up to 2MHz repetition rate, the DIADEM has many pulse control features such as adjustable pulse duration, selectable repetition rate from 40 MHz down to single-shot, or fine pulse energy tuning so that pulses can be emitted in various modes (on demand via external signal, burst of pulses with configurable pulse separation). A 1300 nm version is also available for deep brain imaging.
The Q-SHIFT series of Q-switched DPSS lasers is designed for researchers and application specialists working in micromachining, dermatology, LIDAR, time-resolved laser spectroscopy, and LIBS applications. With its built-in nonlinear wavelength conversion stage, this series allows the production of unconventional fundamental DPSS wavelengths, including 1163, 1177, 1300, 1317, 1551 and 1571 nm options, making it an ideal choice for those seeking wavelengths that are not accessible with conventional solid-state laser sources. With the optional harmonics generator, it is possible to generate up to the 4th harmonic for each fundamental wavelength, providing even more versatility.