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VCFL-15000: 15 Watts CW Fiber laser
Applications:
%u2022 Marking
%u2022 Material processing
%u2022 Micromachining
%u2022 Engraving
%u2022 Brazing
%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 Manufacturers of fiber lasers
General
V-gen’s VCFL professional 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 references. 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
• Splicer
• Spectroscopy
• Medical
• Imaging
• Pumping
All V-gen Fiber Lasers are RoHS compliant. |
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VCFL-7500: 7.5 Watts CW Fiber laser manufacturer
Applications:
• Marking
• Material processing
• Micromachining
• Engraving
• Splicer
• 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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PureBeam Professional 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 manufacturer 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˛ Industrial 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 Industrial 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 industrial laser and professional 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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VPFL-5000: 5 Watts Supplier of 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 manufacturer
APPLICATIONS:
- Marking
- Material processing
- Micromachining
- Splicer
- 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
• Brazing
• 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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V-gen's advanced manufacturers of fiber lasers are short-pulse, Ytterbium fiber industrial 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 references. 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
- Brazing
- 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 at 600 to 1750* nm, typical fixed repetition rate 25kHz, pulse width 1 - 2 ns
SuperK™ Versa - 2 Watt at 460 to 1750** nm, typical fixed repetition rate 80 MHz, pulse width <10 pS
SuperK™ Power - 3 Watt at 460 to 1750** nm, typical fixed repetition rate 80 MHz, pulse width <10 pS
SuperK™ Extreme - 6 Watt at 460 to 1750** nm, typical fixed repetition rate 80 MHz, pulse width <10 pS
* the spectrum actually covers 500 to 2000 nm; 600 to 1750nm are specified due to limitation of the measurement instrument
** specfied spectrum limited by measurement instrument
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VPFL-2000: 2 Watts Manufacturer of 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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FDL is a CW professional 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 professional cooling system. The optic fiber allows to set the focussing head far from the smps, 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 MANUFACTURERS OF PLC, PC, Host Professional computer. |
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The FiberStar is a compact and robust fibre laser that emits at a wavelength of 1085 nm. It is insensitive against shock, vibration, dust, temperature and other disturbing factors. The service-free professional 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 professional 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 NuFIRETM professional laser, Nufern listened to real users' needs, then set out to build a new generation of manufacturer 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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COMPACT Ytterbium Yag FIBER LASER MANUFACTURER
Ultra-compact professional laser unit Nd-Yag Ytterbium fiber type with vertical exit, equipped with 2 interpolated axis by galvo motion system. The state-of-the-art way to mark, engrave and cut most metallic materials as well as non-metallic materials with metal coating, easy to install on new or existing machinery or production device.
Laser source made in the USA in compliance with the strictest military standards.
Optical path fully covered, sealed and dust-proof.
Personal computer integrated in the laser box - monitor and professional keyboard separate (see "Pack 2" Accessory Kit) - supplied with our Linux RTI MatriX professional software.
Air professional cooling system integrated in the laser box. |
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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 analyser, 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
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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
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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
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The narrowband ASE source developed by Multiwave Photonics is a highly innovative product that can replace professional 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 |
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Fiber coupled arrays feature high brightness fiber coupling, small footprint and very high power in passively cooled packages. They deliver 25W to 120W of professional laser power through 0.22 NA multimode optical fibers with 100µm to 600µm core.
An integrated optical design, the accurate test and selection of semiconductor materials and the efficient thermal management make these devices the ideal choice for applications requiring reliability, long lifetime and simple passive cooling in a small footprint. |
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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 professional 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
Suppliers of metrology |
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Main Features:
- State-of-the-art, Air-Cooled, Ytterbium Q-Switched Fibre laser for marking on virtually any material (metals, plastics, ceramics; etc.)
- This Marking Kit has two scanning heads working simultaneously
- (master-slave configuration) which doubles the speed of the marking process. This could be very useful for marking a large quantity of parts with the same pattern.
- Integrated Design with professional laser, laser control and professional power supplies in one box for each of the two scan heads
- Designed for maintenance-free Direct Part Marking (DPM) applications
- PC with user-friendly software supplied
- Excellent bean quality (M2=1.4)-TEM00 beam profile
100,000 (MTBF) hours maintenance-free operation
- Low voltage power source (110/220 VAC) requirements
- Flexible wire beam delivery system
- Possibility to operate without a PC. In this case, the marking pattern is saved on the multimedia memory card.
- Built-in I/O for integration into a production machine or other equipment. |
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| In creating the NuFIRE professional 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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