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FDL is a CW laser source (continous wave emission) with a wave length range from 810 to 980 nm, normally adopted in the field of mid-high powerdiode laser system.
Projected, engineered and patented by Laservall, FDL utilises a unique laser beam re-shaping module (realized in class 1000 white room), which allows the beam injection in a small diameter monocore optic fiber, obtaining, at the end of it, an extremely high brightness spot and excellent precision in the area thermally affected. FDL has been designed for industrial application and industrial environment, thanks to the small dimension (power rack only 19") and to the air cooling system. The optic fiber allows to set the focussing head far from the power supply, giving to the system a grat freedom and flexibility. Laser emission is controlled by a remoted command box panel (for stand alone units) or by other control systems such as PLC, PC, Host Computer. |
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Our broad line of LIEKKI fibers includes erbium (Er), ytterbium (Yb)and advanced active fibers.
LIEKKI ytterbium fiber
The LIEKKI ytterbium fiber product line Yb1200 offers high efficiency and short application lengths while maintaining excellent beam quality, high reliability and ease of handling. Photodarkening has been minimized to a negligible level.
The Yb1200 product line covers the broad application field of ytterbium fibers ranging from low-power preamplifiers to high-average-power pulsed amplifiers and high continuous-wave (CW) power fiber lasers.
LIEKKI erbium fiber
LIEKKI offers a broad selection of erbium doped fibers for applications ranging from standard telecom & cable TV C- and L- band amplifiers and amplify spontaneous emission (ASE) sources to very highly doped short-pulse amplifiers for 1.5µm.
These high concentration fibers manufactured with our unique and proprietary Direct Nanoparticle Deposition (DND) technology feature good efficiency due to low level of clustering. |
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VCFL-7500: 7.5 Watts CW Fiber Laser
Applications:
• Marking
• Material processing
• Micromachining
• Engraving
• Welding
• Spectroscopy
• Medical
• Imaging
• Pumping
Parameter Specifications:
Operational mode: CW
Wavelength: 1060 - 1080 nm
Nominal output power: 7.5 Watts
Output power tunability: 10 - 100%
Output power stability < 2%
Linewidth (FWHM) 15%
Specifications are subject to changes without prior notice. |
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VCFL-15000: 15 Watts CW Fiber Laser
Applications:
%u2022 Marking
%u2022 Material processing
%u2022 Micromachining
%u2022 Engraving
%u2022 Welding
%u2022 Spectroscopy
%u2022 Medical
%u2022 Imaging
%u2022 Pumping
Parameters Specifications:
Operational mode: CW
Wavelength: 1060 - 1080 nm
Nominal output power: 15 Watts
Output power tunability: 10 - 100%
Output power stability < 2%
Linewidth (FWHM) 15%
Specifications are subject to changes without prior notice. |
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Industrial Single Mode CW Fiber Lasers
General
V-gen’s VCFL lasers are single mode CW, Ytterbium fiber lasers. The system’s TTL control interface can be used to operate and tune the laser output power. Single mode (M2 ~ 1.1) beam quality offers ideal optical performance.
A sealed system in an all-fiber configuration, the VCFL is housed in a robust assembly that meets industrial standards. The compact dimensions, high wall plug efficiency and maintenance free operation allow easy and efficient OEM integration.
A reinforced or armored fiber cable delivers the output beam. V-gen also offers output collimators, focusers and high-power output isolators as optional units.
Main Features
• Up to 15Watts output power
• Wavelength 1060 – 1080 nm
• Beam quality: M2 ~ 1.1
• Sealed
• Maintenance-free operation
• TTL control interface
• Wall-plug efficiency > 15%
• Fiber delivery length: 1 – 20 m
Applications
• Marking
• Material processing
• Micromachining
• Engraving
• Welding
• Spectroscopy
• Medical
• Imaging
• Pumping
All V-gen Fiber Lasers are RoHS compliant. |
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All CNI Laser modules including infrared laser,visiable laser, all can be fiber coupled as your require. You also have to refer to the detailed specs of the laser modules (such as power, stability, noise, size, etc) to decide which laser you choose for fiber coupling.
80-240VAC, RoHS, FDA, CE complied |
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| Distributed Feedback (DFB) Diode Lasers are fixed wavelength single mode diode lasers. Typical geometrical sizes of the laser chip are 1000µm x 500µm x 200µm (length x width x height). The laser chip is grown by MOVPE of compound semiconductor material. The optical gain is provided by double heterostructure which include several Quantum Wells for electronic confinement. Typcal emitter width range between 3µm and 7µm. The single mode emission is enforced by a Bragg grating with the laser chip. The surfaces of the laser chip act as cavity mirrors due to the difference of the refractive index of the laser material and the surrounding air. The rear facet of the laser chip is provided with a high reflection coating. The front facet of the laser chip is provided with a high quality antireflection coating for avoiding the Fabry Perot modes of the laser chip. Distributed Feedback (DFB) Diode Lasers are available at almost any wavelength between 760nm and 2800nm. |
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PureBeam Laser:
StockerYale's PureBeam laser is a temperature-stabilized, fiber-coupled device for a wide range of biomedical, medical, and industrial applications. This high-output power laser has integrated drive electronics and laser-welded mechanical components. The PureBeam laser features a single-mode optical fiber delivery system, and provides exceptional power stability and low noise at the fiber exit. In addition, the unit is temperature-stabilized with a thermoelectric cooler that maintains a constant laser diode temperature, resulting in excellent wavelength and output power stabilities, as well as a long lifetime. All models emit diffraction-limited circular beams with no astigmatism and have a high pointing stability.
For applications requiring uniform flat-top illumination, the PureBeam laser can be easily integrated with our Flat-Top˛ Generator, an innovative beam shaping module that converts a gaussian beam to flat-top square or rectangular profile. |
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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
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LIEKKI offers a value-added service by providing pre-engineered assemblies of our active and passive fibers with standard combiners, gratings and end caps.
Our optical engines are available in a variety of configurations (forward, backward and bidirectionally pumped) and power levels (10-100 W CW) allowing you to choose a standard module which meets your requirements and accelerates your developments. Both laser and amplifier optical engines are available and both air cooling and water cooling are options.
LIEKKI also collaborates with major pump suppliers on creating integrated solutions for pumps and optical engines.
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| 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. |
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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) |
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VPFL-5000: 5 Watts Fiber Laser
APPLICATIONS:
• Marking
• Material processing
• Micromachining
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse
Wavelength: 1060 - 1080 nm
Average output power: 5 Watts
Repetition rate: 10 - 100 kHz
Pulse width: 50 - 120 nsec
Pulse energy (max): 500 µJ
Peak power (max): 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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VPFL-8000: 8 Watts Fiber Laser
APPLICATIONS:
- Marking
- Material processing
- Micromachining
- Welding
- Spectroscopy
- Medical
SPECIFICATIONS:
Operational mode Short pulse: Wavelength 1060 - 1080 nm
Average output power: 8 Watts
Repetition rate 15 - 100 kHz
Pulse width: 50 - 120 nsec
Pulse energy (max) > 500 µJ
Peak power (max) > 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions: 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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VPFL-10000: 10 Watts Pulsed Fiber Laser.
APPLICATIONS:
• Marking
• Material processing
• Micromachining
• Welding
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse
Wavelength: 1060 - 1080 nm
Average output power: 10 Watts
Repetition rate: 20 - 100 kHz
Pulse width: 50 - 120 nsec
Pulse energy (max): 500 µJ
Peak power (max): 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions: 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters: M2 < 1.5
Specifications are subject to change without prior notice. |
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| Multimode, step-index optical fibers offer the most efficient and flexible delivery of high power laser beams. The correct components should be selected for minimizing beam quality degradation and optimum robustness. Smaller fibers tend to produce less degradation to beam quality but the minimum usable fiber size is limited by the quality of the laser beam, focusing optic and the numerical aperture (N.A.) of the fiber. Selection of the appropriate fiber type is an important consideration because the characteristics of the output beam will enhance or degrade the utility of the fiber optic delivered beam for different applications. The other components of the beam delivery system also impact performance: High power handling requires high quality end face surface finish and specially designed connectors that can withstand heating which comes from the absorption of spurious reflections or refractions at the fiber end faces. The fiber optic delivery system allows the laser beam to be transmitted in a small, flexible cable and is ideal when the laser beam must be delivered along a complex path or processing requires complicated manipulation of the beam delivery optics. |
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V-gen's advanced fiber lasers are short-pulse, Ytterbium fiber lasers in MOPA configuration. The system's TTL control interface can be used to operate and tune the various laser parameters (output power, pulse energy, repetition rate and pulse width).
A sealed system in an all-fiber configuration, the VPFL is housed in a robust assembly that meets industrial standards. A reinforced or armored fiber cable delivers the output beam. V-gen also offers output isolators, collimators and focusers as optional units.
APPLICATIONS:
- Marking
- Material processing
- Micromachining
- Welding
- Spectroscopy
- Medical
- LIDAR
- Range finding
MAIN FEATURES:
- Up to 1 mJ pulse energy
- Up to 20 Watts average output power
- Wavelength 1060 - 1080 nm
- 50 - 200 nsec (tunable) pulse width (5 nsec for SP versions)
- 10 - 100 kHz (tunable) repetition rate
- Sealed, maintenance-free operation
- Wall-plug efficiency >10% |
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VPFL-5000-SP: 5 Watts short-pulse (5 nsec)
APPLICATIONS:
• LIDAR
• Range finding
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse (5 nsec)
Wavelength: 1060 - 1080 nm
Average output power: 5 Watts
Repetition rate: 50 - 100 kHz
Pulse width: 5 - 50 nsec
Pulse energy (max): 100 µJ
Peak power (max) > 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions: 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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VPFL-2000-SP: 2 Watts short-pulse (5 nsec)
APPLICATIONS:
• LIDAR
• Range finding
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse (5 nsec)
Wavelength: 1060 - 1080 nm
Average output power: 2 Watts
Repetition rate: 50 - 100 kHz
Pulse width: 5 - 50 nsec
Pulse energy (max): 40 µJ
Peak power (max): 8,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions: 300 X 120 X 50 cm
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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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 |
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VPFL-2000: 2 Watts Fiber Laser
APPLICATIONS:
• Soft Marking
• Material processing
• Micromachining
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse
Wavelength: 1060 - 1080 nm
Average output power: 2 Watts
Repetition rate: 5 - 50 kHz
Pulse width: 50 - 150 nsec
Pulse energy: (max) 400 µJ
Peak power: (max) 8,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions 300 X 120 X 50 cm
Fiber length: 150 cm (other options available)
Output fiber collimator 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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Rare earth doped gain fibers for converting pump light into laser and amplifier signals.
Available in single clad, double clad, and triple clad variants, these fibers have the high brightness, narrow linewidth, and extreme power stability to satisfy the most demanding applications. |
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The ELR Series Erbium fiber laser is a unique instrument that combines a diffraction-limited, high-power CW light source in an "eye-safe"* (1530 to 1600nm) spectral range with all solid-state laser reliability. Its turnkey operation, compact size, and air-cooled simplicity make it an ideal light source for material processing and a variety of IR systems.
Purchasers can select from a wide range of options including: random, linear or circular polarization, kHz, MHz or nm linewidth, direct (up to 2KHz) or AOM (up to 200MHz) modulation, optical isolation at the output, package, redundancy, termination and many others. |
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OFS has been leading the industry in
supplying erbium-doped fiber (EDF) products for more than 15 years.
Our broadest range of erbium-doped products in the marketplace serves all your needs, while offering industry-standard and versatile designs in large production volumes.
Custom splice data for the fibers and devices used in your application is available upon request, and OFS offers its own OASiX Optical Ampflifier Simulation System Software to design and predict EDFA performance using the measured characteristics of the specific lots of fiber you purchase. |
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| Perfect for single and multi-channel C- and L-band amplifiers and ASE sources and small form factor devices. |
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| Industry leading tolerances on key spectroscopic parameters ensure lot-to-lot reproducibility. |
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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 M˛ 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.
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| 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. |
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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.
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OFS offers a suite of optical fibers, cables, and custom connectorized probes for delivering high laser powers for medical and industrial uses. We offer reusable fibers for aesthetic laser treatments and disposable fibers for urology. Industry uses our fibers in their lasers for cutting, welding, and etching.
Our HCXtreme™ Optical Fiber product line for high power under tight bends offers fibers in a selection of core sizes and numerical apertures, addressing the need to transmit high laser powers at the same time the fiber is subject to extreme bending conditions. Additionally, because many of these fibers are intended for intra-body use, they are biocompatible, non-toxic, and sterilizable.
Other large core HCS® optical fibers are available for specific applications. OH content, numerical aperture, core size, cladding and buffering materials can all be adjusted to meet specific needs. |
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