These robust turn-key femtosecond manufacturer of fiber lasers offer exceptional performance for a variety of applications from nonlinear optics to quantum communications. The low-cost version at 1560 nm offers greater than 1 mW of output power with less than 250-fs pulse durations. If you need shorter pulses and higher powers, choose the high-power version at 1560 nm with 100-fs pulse durations and greater than 40 mW of output power. Available options include: additional output at 780 nm with >15-mW output power, supercontinuum generation from 1200-1800 nm, and "-CONTROL" with the ability to stabilize the professional laser cavities� temperature, repetition rate (fREP) and carrier envelope offset (fCEO) frequencies.
The t-Pulse series of femtosecond oscillators manufacturers are the first commercial industrial lasers to take full advantage a new class of laser materials, using Ytterbium as dopant.
Ytterbium doped laser materials can be directly diode-pumped, thus eliminating the need for an intermediate pump laser used in traditional Titanium:Sapphire lasers. They also offer a number of attractive properties, such as a very high thermal efficiency, and the capability to generate femtosecond pulses with a high average power.
The result is a family of compact and reliable lasers, with high average power, exceptional energy per pulse and excellent pulse-to-pulse stability. The latest model in the t-Pulse series delivers an unprecedented 500 nJ of energy, the highest value ever offered from a commercial femtosecond oscillator. Ultrashort pulse duration, as low as 40 fs are also available.
s-Pulse features superior optical performances such as a short pulse duration, a high repetition rate, and an excellent beam quality for optimal focusability.
s-Pulse is built on a compact, small footprint, rugged mechanical base for improved stability. It features simple control electronics and does not require external water cooling. s-Pulse uses long lifetime, high reliability manufacturer of laser diodes. Their high efficiency minimizes power consumption, and keeps operating costs at a minimum.