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| HPG lasers provide a cost effective light source for display and alignment applications and for Ti Sapphire laser pumping. |
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| Photonics Industries is a technical leader in the manufacturing of solid state harmonic generation laser systems. We manufacture a wide array of lasers that can be used for a number of applications in a variety of different fields. For more information on a specific product line, please choose one below. |
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Model LCM-T-111-20, LCM-T-111-10, LCM-T-111-1
(with output power of 20, 10, 1 mW CW respectively)
High reliable product industrially verified during many years
>10,000 hours lifetime
Small in size and easy-to-install T-series laser modules provide gas-laser beam quality and semiconductor laser module size.
LCM-T-series module incorporates driving electronics, therefore no additional driver for laser diode is required. In order to operate the module just 3.3 VDC voltage should be applied to input of the laser.
Each LCM-T-series laser module features an active power stabilization control loop. This control loop monitors output radiation of the laser module and maintains it at constant level within wide temperature range. Spherical-mirror laser cavity provides perfect and stable beam geometry. Two-lens output optics yields well collimated, centered and aligned ray of light.
Fan heat sink accessories are available.
All above allows to consider LCM-T-series modules as the best quality-to-price ratio decision for many applications.
AC version - complete laser system, model name LCS-T-11 with 3 mW output at 532 nm. |
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The 532nm DPSS green laser module is a compact, self-contained laser module designed for use in industrial alignment, medical and scientific applications where a highly visible beam is required.
It produces a very visible circular output beam of <2.0mm diameter and output powers of 0.9mW and 4mW with a maximum operating current of 250mA.
Power stability is better than 5% over 7 hours. Modulation capability of 0-1kHz is standard.
In addition, the module uses a front facet monitor photodiode to maintain a stable output power, as opposed to using the internal monitor of the laser diode, which is often less responsive.
The green laser module consists of an anodised aluminium housing, laser diode, drive circuit and collimating lens. Electrical connections are made via external flying leads.
Line generator options are available on request - contact our sales department for more information. |
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| Photonics Industries is a technical leader in the manufacturing of solid state harmonic generation laser systems. We manufacture a wide array of lasers that can be used for a number of applications in a variety of different fields. For more information on a specific product line, please choose one below. |
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Models: LCS-T-12 (complete laser system with 50 mW CW output at 1064 nm, has AC Power Supply),
modules LCM-T-112-100, LCM-T-112-10
(with output power of 100, 10 mW respectively, operating from 3.3 V DC)
High reliable product industrially verified during many years
>10,000 hours lifetime
Small in size and easy-to-install T-series laser modules provide gas-laser beam quality and semiconductor laser module size.
LCM-T-series module incorporates driving electronics, therefore no additional driver for laser diode is required. In order to operate the module just 3.3 VDC voltage should be applied to input of the laser.
Each LCM-T-series laser module features an active power stabilization control loop. This control loop monitors output radiation of the laser module and maintains it at constant level within wide temperature range. Spherical-mirror laser cavity provides perfect and stable beam geometry. Two-lens output optics yields well collimated, centered and aligned ray of light.
Fan heat sink accessories are available.
All above allows to consider LCM-T-series modules as the best quality-to-price ratio decision for many applications. |
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| The Coherent family of solid-state, diode-pumped lasers includes more than 50 continuous-wave and pulsed models, a number that grows by about 20% each year. These products encompass a diverse range of specifications and capabilities, enabling us to provide the best solutions for today's scientific and OEM applications. |
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Diode-pumped laser sources
for marking and micromachining.
The high electro-optic conversion efficiency of the SagittaTM allows low electrical power consumption with a reduction footprint for the cooling element.
This high efficiency also allows to reduce ageing of the diode laser for long life applications, which reduced replacement costs upon consumption of the diode after an average of 10,000 working hours without any maintenance interventions.
The laser resonator is designed specifically for marking, engraving and micromachining application by optimizing the beam quality. The long-term stability of SagittaTM laser reach the requirements for integration into automatic production lines.
Integration into a complete system is extremely simple.
The power supply rack comes complete with hardware features required to be easily interfaced with external components to build a turn-key system. In order to create a laser marking system it is only required to give signals to control the Scanning Head.
Replacing the laser diode module is extremely simple, all you need is an allen wrench.
SagittaTM is often required on precision marking components, surgical instruments, tools and ball bearings. Using 100 and 160 mm focal length objectives, SagittaTM is able to engrave metals with a very high material removal capacity. The high power density of laser beam combined with the high speed of the scanning head, allows fast, deep engraving on metals. |
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| Diode-Pumped Solid-state Lasers are ideal lasers that serve various and diverse industrial market segments. Excellent beam quality, rock-solid stability, incredible efficiency and solid-state reliability make these lasers the clear choice for application. It integrates a ND: YAG laser rod which is efficiently pumped by a radial array of long lifetime laser diode bars, and delivers excellent gain uniformity and lensing performance. It is used for medium power multi-mode applications, precise micro-machining and scientific applications. |
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Line generator can be used to display a uniform straight reference line for use in alignment, machine vision systems, construction and process control.In addition, the lenses may also be used on lower power lasers, lenses are available in fan angles of 7°, 10°, 30°, 45°, 60°, 75° and 90° for custom applications.
80-240VAC, RoHS, FDA, CE complied |
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Model GARNET - industrial laser for OEM applications: in mass-spectrometry (MALDI TOF), laser microdissection, biotechnology. Over 900 lasers GARNET work in the field in the complicated equipment.
Q-switched UV laser with pulse energy 20 µJ at 355 nm, pulse length of 5 ns operating with external triggering at 200 -2000 Hz, has 24V DC Power Supply.
Complete laser system - model name LCS-DTL-374QT with pulse energy 20 µJ at 355 nm, pulse length of <10 ns operating with external/internal triggering at pulse repetition rates from 0 to 10 kHz, has AC Power Supply. |
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| Photonics Industries is a technical leader in the manufacturing of solid state harmonic generation laser systems. We manufacture a wide array of lasers that can be used for a number of applications in a variety of different fields. For more information on a specific product line, please choose one below. |
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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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Excimer lasers are the most powerful and versatile light sources in the UV range of the electromagnetic spectrum. Because of their cold ablation and short wavelength excimer lasers are used for countless applications.
Coherent has established an optimized, field proven excimer laser portfolio at all performance levels:
-compact ultraviolet (UV) light sources
-high-power excimer lasers
-beam delivery systems |
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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-Top² Generator, an innovative beam shaping module that converts a gaussian beam to flat-top square or rectangular profile. |
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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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Fiber coupled arrays feature high brightness fiber coupling, small footprint and very high power in passively cooled packages. They deliver 25W to 120W of 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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Excellent beam quality up to +/-15 mm
Up to 1000W cw opt. output power
Water cooled , no DI water necessary
Pointing laser integrated optional
Integrated laser self control unit |
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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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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.
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Laser sources
