We achieve unprecedented stability and environmental resilience of our lasers with a robust all‑fiber technology. A 100 W laser dedicated for fast and reliable micromachining will come next in our offer.
Our laser products work exceptionally well in very wide range of temperatures. The acceptable ambient temperature spans from 15°C to 50°C, while some elements were tested to operate from -10ºC to 100°C, maintaining its operational parameters at all times.
Our core product performance (the 1040 nm femtosecond oscillator) was repeatedly tested after subjecting it to accelerations of 6 g magnitude. The autocorrelation trace was always rock solid throughout the test.
Our products are tested using state‑of‑the‑art diagnostics equipment. We offer the same tools to our customers: compact Real‑time Autocorrelator and Spectral Phase Intereferometer. Visit our web page regularly, other devices will follow soon.
Halite is a compact, single-box, all-fiber femtosecond laser, specifically designed to meet the most demanding applications in the field of neuroscience, biophotonics, microscopy and engineering. With pulses as short as < 180 fs, average power up to 2 W at 1030 nm and 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 (up to 100 nJ) with an excellent beam quality. Halite’s industrial design facilitates easy integration with both experimental and commercial systems.
Fluence Halite can be used in applications that need pure and stable laser pulses. This includes:
JASPER is a 1030 nm high-power femtosecond fiber laser delivering up to 160 µJ at 20 W. With truly monolithic all-fiber front-end this laser provides fast warm-up time, unprecedented long-term stability and hands-free operation. Contrary to free space laser amplifiers, fiber amplifiers ensure unbeatable beam pointing stability even in harsh environment.
Jasper is the right choice whenever there is a need for the high power and high pulse energy while maintaining a very short pulse duration. Some applications include:
If you require continues wavelength tuning, please check Fluence Harmony Optical Parametric Amplifier.
This is not a usual laser. This is the superhero of laser oscillators. It has special superpowers that make it stand out from the crowd. Super-short yet ultra-fast. Small in size but very stable and robust. The earth may tremble but the laser will operate as usual. Same power, same pulse and no degradation over many years.
This oscillator was specifically developed to be the rock-solid heart of the Fluence Jasper amplified system. It is build upon the Fluence truly-all-fibre technology, with no degradable components inside. The oscillator is equipped with a special self-starting solution ensuring the laser mode-locks every time. This feature together with the low size and power consumption makes the Fluence Oscillator perfect for OEM applications.
The Fluence Oscillator can be used in applications that need pure and stable laser pulses. Applications include:
Find harmony in four perfectly synchronised and precisely tunable wavelength outputs produced by Fluence Harmony Optical Parametric Amplifier (OPA).
Fluence Harmony is a device that precisely converts ultrafast pulses of one band (e.g. 1030 nm pulses coming from Fluence Jasper) into a set of pulsed laser beams tunable in an extremely broad spectrum of wavelengths, ranging from 210 nm up to 2600 nm. All automated, all software-controlled.
Growing number of ultrafast spectroscopy techniques has prompted the need for a robust and reliable, self-diagnostic device like Harmony. The Optical Parametric Amplifier is fully compatible with all femtosecond lasers and provides automated tuning across the basic tuning range.
Harmony is a versatile piece of equipment, due to its broad range of tuning and high conversion efficiency. When seeded with a reliable ultrafast laser such as Fluence Jasper, it may find use in many applications like:
We are more than happy to customise this product for you and add some special features that you require. Do you prefer to have the third harmonic or different polarisation? Just get in touch and let us know.
Fluence Blueback is a real-time ulstrashort laser pulse characterization device specifically engineered to provide a high-resolution measurement for ultrafast oscillators and amplifiers. It is an essential piece of equipment for everyone who depends on accurate information about properties of their ultra-short pulses. With Fluence Blueback you get more than just a single result. You can watch your pulse evolving in real time.
Traditionally the manufacturing of metal surfaces with highly controllable properties required processes which involve too many techniques and steps to become commercial products, but now it is something that can be done with our femtosecond lasers, providing fast warm-up time, unprecedented long-term stability and hands-free operation.
Fluence fiber-based femtosecond lasers has the capability of developing high energy/power ultrafast pulsed, compact and robust fiber laser products, which are maintenance-free and cost effective for both industrial and scientific applications.
Microfluidics, 3D lithography, precision tools, MEMS, THz optics fabrication and injection nozzles are some of the applications Fluence lasers have experience in, offering a wide range of products to suit your specification, providing the highest standards of quality and reliability.
Thanks to the possibility offered by femtosecond lasers to work inside of materials without causing any damage on the surface, three-dimensional structures could be generated, allowing chips or lenses to be built-in a piece of glass.
Experienced on glass cutting, our femtosecond lasers can also be used to produce thin glass surfaces for electronics devices as well as some other scientific applications that requires high quality and precision for small pieces.
Diamond marking, gems cutting, hard glass cutting, glass welding, plastic welding and 3D data storage are some of the applications Fluence lasers have experience in, offering a wide range of products to suit your specification, providing the highest standards of quality and reliability, as well as the best finish for the machining surfaces.
The efforts in the field of photovoltaic technologies are directed to obtain more efficient cells at a lower cost, that can be achieved with the use of femtosecond laser technology in the manufacture thereof.
No heat impact, shock waves, micro cracks, melting effects, surface damage, debris, ejected material nor recast layer are some of the properties of the use of femtosecond laser that make our products taking the lead on this field because of the long-term stability under several hard conditions the lasers had been tested on.
Micro-vias, photovoltaics, surface processing, laser deposition and component trimming are some of the applications Fluence lasers have experience in, offering a wide range of products to suit your specification, providing the highest standards of quality and reliability.
Femtosecond lasers emit precise and short duration energy pulses with a wavelength close to the infrared, which allows it to penetrate tissues without damaging adjacent structures. These properties make femtosecond lasers the most suitable tool for clinical applications, such as laser eye surgery, precision laser surgery, or medical device fabrication.
With truly monolithic all-fiber front-end our lasers provide fast warm-up time, unprecedented long-term stability and hands-free operation.
Fluence lasers are tested in a wide range of different conditions, such as vibration test, shock test or temperature cycling ensuring the highest standards for quality and reliability.
Microsurgery, dentistry, DNA transfection, coherent tomography, nanoparticles fabrication and imaging are some of the biomedical applications Fluence lasers have experience in, offering a wide range of products to suit your specification.
The use of shorter laser pulses provides some advantages in spectroscopy and two-photon microscopy field.
The development of femtosecond laser pulse generator has made it possible to obtain enough peak of intensity to observe a wide range of different multiphoton processes. Peak powers, previously unimaginable, can be now obtained with Fluence products thanks to how small our femtosecond pulses are.
Femtosecond lasers allow to make protons be directly accelerated almost to the speed of light, bringing many opportunities to experiment and research about ultrafast physical phenomena.
The experience in providing universities with suitable equipment for their researches and experimentations makes Fluence one of the best laser provider for scientific applications, ensuring the highest standards of quality and reliability.
Some of the scientific applications Fluence lasers have experience in are ultrafast spectroscopy, high intensity and energy physics, life science, …