|
|
The ML50-CW-R-OEM is a compact CW Fibre Laser delivering up to 50W of output power, through a near diffraction limited beam (M²<1.1). The excellent beam quality and power stability make the Manlight Fibre Laser a multi-purpose tool. Our patented “Injection Technology” allows the use of highly reliable broad area laser diode pumps, for a cost effective and maintenance-free operation. The all-fibre design guarantees the robustness of the laser, without any optical parts to align or to stabilize. The simple integration of the system requires no after-installation service. The ML50-CW-R-OEM is the ideal solution for a broad range of industrial and scientific applications.
It also exists in 5, 10 or 20W version or in a 19", 3U Tunrkey version.
|
|
Until recently, femtosecond sources have had a reputation as being fragile and complex instruments. Fortunately, the advent of fiber technology has led to a new kind of compact and rugged source: the FemtoFiber laser. Pumped by diodes and with no bulk mirrors to align, these lasers are proving increasingly popular as "push-button", reliable sources of ultrashort pulses. No water-cooling and no external pump laser is required.
Typical applications that benefit from the convenience and performance of mode-locked fiber laser include:
- Optical metrology
- Ultrafast spectroscopy
- Microscopy
- THz spectroscopy
- Seeding high-power amplifiers
- Wave guide structuring
- Optical coherence tomography
|
|
Ultra-narrow linewidth DFB Fibre Lasers:
Adjustik, Adjustik HP, Adjustik T20, tunable
- E15, C15: 1535-1565nm up to 10/20mW, respectively 200mW
- Y10: 1030-1060nm up to 15/200mW
- T20: 1720-1780nm up to 50mW
Basik Module, tunable, single frequency
- E15, C15: 1530-1565nm up to 200mW
- Y10: 1030-1090nm up to 200mW
Boostik Module, Boostik OEM , Boostik HP, tunable
- E15, C15: 1540-1570nm up to 2Watt
- Y10: 1050-1130nm up to 2 Watt
- HP:1053-1100nm up to 10 Watt
|
|
|
YLIA M20 - 20W double clad fiber laser for high speed marking and engraving on a wide range of materials. 1mJ at 20kHz in 100ns pulse duration, it reaches 10kW useful peak power to ablate most of the common used metals in the industry.
|
|
|
The ML50-CW-R-TKS Fibre Laser is a compact CW Ytterbium Fibre Laser delivering up to 50W of output power, through a near diffraction limited beam (M²<1.1). The excellent beam quality and power stability makes the Manlight Fibre Laser a multi-purpose tool. This product is also available as OEM Version.
|
|
The ML20-PL-R-OEM Module is a compact 1mJ Pulsed Ytterbium Fibre Laser delivering up to 20W of average output power, through a near diffraction limited beam (M²<1.5). It allows to obtain more than 20 kW of peak power due to a pulse duration lower than 50 ns. One of the key features is the possibility to operate the Fibre Laser in Pulsed or CW mode. Pulse repetition rate and output power can be controlled either by 8-bits TTL signal or RS232 or Analog. The excellent beam quality and power stability make the Manlight Fibre Laser a multi-purpose tool. Our patented “Injection Technology” allows the use of highly reliable broad area laser diode pumps, for a cost-effective and maintenance-free operation. The all-fibre design guarantees the robustness of the laser, without any optical parts to align or to stabilise. The simple integration of the system requires no after-installation service. The ML20-PL-R-OEM is the ideal solution for a broad range of industrial applications.
It also exists in a 0,5mJ version (ML10-PL-R-OEM) and in a 19" 3U Tunrkey version.
|
|
General description: Talisker
Fiber based industrial laser for micromachining
Features :
- Scalable fiber laser platform
- High peak power picosecond pulses for precision machining
- Industrial packaging and reliability
- Minimizing thermal damage and heat affected zone
Talisker™ is a new family of high peak power and high average power picosecond lasers designed specifically for materials processing. Based on a scalable fiber laser platform Talisker is designed for an industrial environment and meets availability requirements of demanding industries. Delivering picosecond pulses these lasers minimize thermal damage and heat affected zone to enable smaller feature sizes for high precision micromachining. Minimizing thermal damage and heat affected zone enables a new range of high precision applications such as silicon machining, wafer dicing, solar cell manufacturing or glass scribing. Available at wavelengths of 1064 nm, 532 nm and 355 nm Talisker processes a wide variety of materials, including: silicon, polyimide, metals,"hard materials," and glass.
|
|
The KOHERAS SuperK™ has been the first commercial solution to provide scientists in diverse fields of research with a tool which was previously unavailable. Leading scientific institutions are working with this source and have given invaluable input for further development.
The KOHERAS SuperK™ is now available in four configurations:
SuperK™ Compact - 100 mW average output power from 500 to 2400 nm, typical fixed repetition rate 25kHz, pulse width 1 - 2 ns
SuperK™ Versa - > 1.5 Watt from 490 to 2400 nm, typical fixed repetition rate 40/80 MHz, master-source pulse width ~5 pS
SuperK™ Power - > 2.8 Watt from 460 to 2400 nm, typical fixed repetition rate 40/80 MHz, master-source pulse width ~5 pS
SuperK™ Extreme - > 4.5 Watt from 460 to 2400 nm, typical fixed repetition rate 40/80 MHz, master-source pulse width ~5 pS
|
|
|
Leukos light sources are fibered wideband sources based on supercontinuum generation. The light emission covers all the silica transparency domain spectrum (400-2400nm) and is spatially singlemode in the visible. The spectrum is flat and steady. The repetition rate is typically 8kHz or 20kHz. The spectrum shape and the spatial profile can be adapted, according to the targeted application (IR-optimized, multimode fiber, repetition rate...)
|
|
|
Leukos light sources are fibered wideband sources based on supercontinuum generation. The light emission covers all the silica transparency domain spectrum (370-2400nm) and is spatially singlemode in the visible. The spectrum is flat and steady. The repetition rate is typically 8kHz or 20kHz. The spectrum shape and the spatial profile can be adapted, according to the targeted application (IR-optimized, multimode fiber, repetition rate...)
|
|
Ultra narrow linwidth DFB fiber lasers:
- Adjustik, Adjustik HP, Adjustik T20, tunable (E15, C15: 1535-1565nm up to 10/20 or 200mW; Y10: 1030-1060nm up to15/200mW; T20: 1720-1780nm to 50mW)
- Basik Module, tunable, single frequency (E15, C15: 1530-1565nm up to 200mW; Y10: 1030-1090nm up to 200mW)
- Boostik Module, Boostik OEM , Boostik HP, tunable (E15, C15: 1540-1570nm up to 2Watt; Y10: 1050-1130nm up to 2 Watt; HP1053-1100nm up to 10 Watt)
SuperK Extreme AOTF
SuperK provides a whitelight spectrum from 460 up to 2000nm with 6 Watt total average output power; an AOTF can be offered for the visible spectrum of 460-670nm, allowing for simultaneous but still independent tunability of up to 8 lines.
|
|
The L–band broadband source is based on Amplified Spontaneous Emission from a diode–pumped Er–doped fiber, and delivers a high spectral density output in the 1562 nm–1608 nm range. The source uses a Multiwave Photonics proprietary design allowing very high spectral density by effective suppression of spurious lasing. The broadband source is typically used for testing optical components and optical communication systems operating in the L–band by noise loading and recording BER as function of OSNR, as well as in fiber–optic gyroscopes, to mention just a few applications. The high spectral density contained within a large bandwidth makes this source also suited for sensing applications.
Key features and advantages
-High spectral density with stable output
-Optical output power up to 50 mW
-High power stability
-Unpolarized output
-High output isolation
-Integrated control electronics
-Robust OEM enclosure with integrated heat sink
-Benchtop instrument version available on request
|
|
The C–band broadband source is based on Amplified Spontaneous Emission from a semiconductor diode–pumped Er–doped fiber, and delivers a high spectral density output in the wavelength range 1525 nm – 1570 nm. This type of source is well established in several applications like testing of optical communications devices in conjunction with an optical spectrum analyzer, EDFA chain emulation by noise loading, fiber–optic gyroscopes as well as industrial sensing systems, to name just a few applications. Multiwave Photonics has refined the design allowing even higher spectral density by effective suppression of spurious lasing.
Key features and advantages
-High spectral density with stable output
-Optical output power up to 50 mW
-High power stability
-Unpolarized output
-High output isolation
-Integrated control electronics
-Robust OEM enclosure with integrated heat sink
-Benchtop instrument version available on request
|
|
The 1 µm broadband source is based on Amplified Spontaneous Emission from a diode–pumped Yb–doped fiber. This source delivers a high spectral density output in the wavelength range 1025 nm – 1075 nm. The 1 µm broadband source uses a proprietary Multiwave Photonics design that allows customization of product characteristics to meet specific requirements imposed by the Customer’s application. Product characteristics such as (1) output power, (2) central wavelength, (3) spectral profile flattening and others may be customized and optimized by Multiwave Photonics for particular requirements of significance to Customers, for example to optimize the source characteristics for specific OCT requirements.
Key features and advantages
-High spectral density with stable output
-Optical output in excess of 25 mW
-High power stability
-Unpolarized output
-High output isolation
-Integrated control electronics
-Robust OEM enclosure with integrated heat sink
-Benchtop instrument version available on request
|
|
The narrowband ASE source developed by Multiwave Photonics is a highly innovative product that can replace laser sources with significant advantages in many applications, like optical pumping, optical sensing and low coherence imaging. The design of the narrowband ASE source allows the emission spectral width to be tailored at the factory from a minimum of 0.1 nm to about 30 nm, while maintaining high quantum efficiency and superior spectral density with a total output power up to 30 mW. The spectral width can be optimized for different applications: a 5 nm spectral width is useful in FBG based sensing systems; a 3 nm spectral width with Gaussian intensity profile is useful in low coherence imaging; and a 0.4 nm spectral width is useful for pumping nonlinear devices, eliminating SBS which is a limiting factor when using laser sources.
Key features and advantages
-Selection of emission center wavelength in the range 1530 nm–1560 nm
-High spectral density with stable output
-Optical output power up to 30 mW
-High power stability
-Unpolarized output
-Large selection of spectral widths
-Low coherence
-High SBS threshold
-Spectral shape can be tailored, flat or Gaussian most frequent choices
-Integrated control electronics
-Robust OEM enclosure with integrated heat sink
-Benchtop instrument version available on request
|
|
The FiberStar is a compact and robust fiber laser that emits at a wavelength of 1085 nm. It is insensitive against shock, vibration, dust, temperature and other disturbing factors. The service-free laser is ideally suited for the harsh environments of industrial applications.
These include micromaterial processing, microcutting, microwelding, engraving and imaging. Due to its good beam profile, the FiberStar also serves as a reliable source for scientific tasks such as sample evaporation, non-linear optics and laser tweezers.
The beam has a Gaussian intensity profile with a M² value of less than 1.3 and the laser radiation is guided to the point of use with an armored single-mode fiber. The FiberStar is easy to use and can be integrated into existing set-ups.
|
|
|
In creating the NuFIRE laser, Nufern listened to real users' needs, then set out to build a new generation of fiber laser. The NuFIRE system is a complete, self-contained fiber laser designed to achieve high performance specifications for reliability and cost-efficiency. It offers unparalleled ease of use to enable experts and non-engineers alike, and the flexibility to handle virtually any application in the 200 W regime.
|
|
StarFiber
ROFIN provides robust and compact fiber lasers with a power range of 100 - 200 W, especially for finest welding seams. Our fiber lasers feature
among others:
closed loop power control
power control dependent on travel speed
safety features (industrial standard)
convenient operator control
innovative ROFIN control unit (RCU)
|
|
In creating the NuFIRETM laser, Nufern listened to real users' needs, then set out to build a new generation of fiber laser. The NuFIRE system is a complete, self-contained fiber laser designed to achieve high performance specifications for reliability, precision, and cost-efficiency. It offers unparalleled ease of use to enable experts and non-engineers alike, and the flexibility to handle virtually any application in the 200 W regime.
The quality of a fiber laser depends very much on the fiber inside. Nufern is the leading supplier of laser fibers worldwide; the design and manufacture of superior specialty fibers is our heritage. Our NuPOWERTM fibers offer the highest in efficiency, beam quality, and lifetime performance. When it comes to true production efficiency, NuFIRE changes everything.
|
|
Applications:
- LADAR/ Rangefinding
- Surveillance
- Mapping
- Sensing
- Seed for power Amp
Features
- Fully self contained
- Ultra Low Jitter
- High beam quality
- Optical trigger out (to)
- EMI filtering MIL-STD-461E
- Transient protection MIL-STD-704F
|
|
|
The EBS-4022 Erbium Broadband Source is an extremely stable, flattened broadband source delivering 22 dBm in a 40-nm wide spectrum spanning the whole Erbium C band. It utilizes amplified spontaneous emission (ASE) from diode-pumped Erbium-doped fiber and a spectral shaping scheme which flattens the output to better than 1 dB from 1527 to 1567 nm.
|
|
FemtoMaster is a passively mode-locked soliton fibre laser with a semiconductor saturable absorber as one of the cavity mirrors. The active medium is a core-pumped Yb-doped fibre. The laser oscillators generate transform-limited 5-15 ps pulses.
The lasers have been designed for maintenance free OEM applications. Compact size, built in electronic drivers and monitoring photodiode makes this unit ideal for demanding laboratory and industrial applications.
APPLICATIONS
Seed source for high energy systems
Fundamental study
High resolution OTDR
Metrology
|
|
Based on all-fiber designs, and pumped by multiple high-reliability multi-mode laser diodes, MPBC fiber lasers are dependable and easy-to-use sources for a variety of industrial, military and scientific applications.
The all-fusion-spliced optical trains eliminate the traditional concerns of keeping optics clean and cavity alignment sensitivity to temperature and mechanical vibrations.The lasers are essentially maintenance-free and highly reliable. Both self-contained, ready-to-use benchtop units and OEM modules designed for further system integration are available.
|
|
The FemtoPower1060 is a range of high-power picosecond passively mode-locked fibre lasers operating in the 1060 nm spectral range. Based on Fianium's FemtoMaster1060 and custom made high-power fibre amplifier, the FP1060 range can provide average powers up to 20W and repetition rates from 20 to 100MHz.
APPLICATIONS
Micromachining
Fundamental study
Metrology
Bio-medical
Optical source for THz imaging
|
|
SC400 is a high power fiber laser generating supercontinuum radiation in the 400 - 2500 nm spectral band with average power up to 6W. The laser consists of a master source based on the FemtoMaster1060, a custom made nonlinear high power fibre amplifier. The lasers are air-cooled, maintenance free and do not require any adjustments.
APPLICATIONS
Fundamental study
Optical coherence tomography
Bio-medical
Metrology
|
|
Cladding-Pump' is perhaps the most significant innovation yet in the field of active fiber devices. By harnessing the high power outputs of multimode pump diodes, cladding-pump fibers have made the goal of multi-watt lasers and amplifiers a reality.
CP1100 employs Fibercore Limited's QPS (quasi polygonal, sinusoidal) fabrication technology (patents pending). The multi-lobed, pure-silica pump-core of CP1100 ensures that pump energy is transferred efficiently into the central, ytterbium-doped laser core whilst the circular cross section enhances compatibility with conventional optical fibers and components.
Unlike competitors' cladding-pump technologies, which employ a silicone rubber or low refractive index resin, CP1100 has a doped silica outer cladding. This unique construction dramatically improves and simplifies the handling characteristics of cladding-pump fibers - and can only increase both reliability and power-handling capabilities.
|
|
| ... products without technical information |
| |
|
|
