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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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New Source Technology supplies high quality laser pump chambers for a variety of laser applications covering all solid-state laser wavelengths. Our pump chamber designs provide unsurpassed performance, reliability and leak integrity to meet the demanding needs of your laser system design. Through many years experience, we have optimized our pump chamber designs to provide features such as high efficiency diffuse reflectors and symmetric radial cooling. Standard pump chambers can be delivered off-the-shelf while the modular design allows for cost effective custom solutions. Contact us today to learn more about improving your performance and reducing the cost of your solid state pump chamber needs! Combined with our flashlamps, optics and crystals New Source Technology can provide you with complete laser heads to your specifications.
Advantages:
High Efficiency
Single & Dual Lamp Models
Designs for Most Wavelengths
Diffuse Cavity
Ce3+or Sm3+Filter Tubes Available
Competitive OEM Prices
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Laser & Light Emitting Diodes
Laser and light emitting diodes (LEDs) are an exciting alternative to traditional lamps; they are bright, stable, and compact light sources. The LED and laser diode modules offered for K2™, PC1™, Chronos™, and Phoenix™ SLM upgrade are easily interchangeable. Laser diodes can be modulated to high frequency and allow measurement of picosecond lifetimes. Frequency responses up to 600 MHz can be obtained on an ISS spectrometer using laser diodes and a photomultiplier tube (PMT) and up to 1 GHz using a microchannel plate (MCP) detector. |
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Beam Benders are the basic building blocks of a conventional beam delivery system. A mirror located inside a holder is employed to turn the beam at a 90° angle (other angles are also possible). Depending on the particular mirror, beam benders are compatible with CO2, Nd:YAG and Fiber lasers.
The mirror holder can also feature water-cooling provisions for use with higher power lasers. Laser Mechanisms provides two basic styles of Beam Benders - a knuckle style for use with the small aperture series and articulated arms, and a block style for the large aperture series. Beam Benders also provide adjustment capability to properly align and steer the laser beam. Interlocked versions are available as a safety feature for when the mirror cap is removed. |
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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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We offer an extensive list of subcomponents for building high-quality Fiber Lasers. We design and manufacture Yb and Er/Yb cladding pumped fibers, power combiners in 7:1 and 19:1 configurations, multimode launch fibers to match input fibes, metalization and ferrules for diode subassemblies. Other building blocks and capabilities include: large mode area fibers, end preparations, fiber Bragg gratings, and connectorization.
Cladding Pumped Fiber Lasers (CPFLs), Cladding Pumped Fiber Amplifiers (CPFAs), and Gain Modules are designed and produced in-house to meet your specifications. |
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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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The RLT Series Raman Fiber Lasers are proven high reliability optical sources optimized forTelecom applications. They operate with 1,000,000Hrs MTTF reliability in any wavelength from1100nm to 1700nm with output powers of up to 10W CW. These lasers are manufactured using IPG's world leading high power pump diode lasers which operate over the widest temperature range without requiring thermoelectric coolers (TEC), thus providing unequalled reliability. The lasers are being deployed in demanding ultra long haul DWDM transmission systems to provide distributed Raman amplification and remote pumping of Erbium Doped Fiber Amplifiers (EDFAs).
Raman Fiber Lasers offer a superior pump source over other techniques such as frequency multiplexed single mode laser diode combiners by virtue of proven high reliability, cost, efficiency and watt class powers. Linear polarization and higher power outputs, up to 50 watts, are available on request. These modules are offered with analog or smart digital control options. |
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