Showing results: 61 - 75 of 158 items found.
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eyeme
Shadow laser micrometer is a powerful tool for precision measurements in various applications. This device uses a laser beam to project a shadow of an object onto a receiver, allowing for accurate and non-contact measurement of distances and dimensions.
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BeamCheck -
mks Ophir
BeamCheck is an integrated laser measurement system designed to measure critical laser beam parameters for laser-based additive manufacturing systems BeamCheck includes a CCD camera for spatial measurements and a NIST-traceable power sensor that will provide a complete analysis of the laser power density profile.
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Duma Optronics LTD
The M2 factor wil define the beam propagation characteristics compared to ideal Gaussian beam propagation. According to ISO Standard 11146 rightfully offers the laser beam characterization as "M2 times diffraction limited beam", as such, a perfect beam will have an M2 of 1. 1 will be the best achievable value and no beam could have an M2 less than 1. Our conceptual design is based on sub-assemblies allowing to change the sensing head in the M2 device, offering multiple wavelengths heads up to 2.7 microns from deep UV (knife-edge technology) and camera based technology with built-in automatic filter wheel for adjustment. For focused beams, the same measuring head could be attached to a device for meauring highly divergent or highly convergent beams - FocusGage-BA, wherein the Laser Analyzing Electronic Autocollimator offers the capability of divergence measurement with Coming Soon M2 definition. M2Beam is the cornerstone of those measuring devices.
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Thorlabs, Inc.
Thorlabs' M2 Measurement Systems provide self-contained, turn-key solutions for measuring M2, divergence, focus diameter, waist position, Rayleigh length and other laser beam quality metrics. Pre-configured, factory-aligned systems covering wavelength ranges between 250 nm and 2700 nm are available. Choose from among systems that have a scanning-slit beam profiler, a camera beam profiler, or no beam profiler.
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mks Ophir
Terahertz laser power and beam profiling measurement is not a trivial task. But as anyone using or developing THz lasers knows, it is crucial to obtain accurate measurements of your laser. Ophir offers a few choices, depending on what aspect of your laser you need to measure. Read these posts for more about Terahertz measurement.
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WinCamD series -
DataRay Inc.
CW & Pulsed laser profiling. Wavelength Range: 190 nm- 15 m*. Resolution: 5.0 m*. Smallest Beam: 42 m*.
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PDMS-102 -
FiveLab Co.,Ltd.
Rotating Retarder MethodLight Source : Laser Diode (max. 4 wavelength; ex.650,690,780,830nm)Beam Diameter : approximately Φ2 - 2.5 (mm)
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mks Ophir
Beam analysis of high-powered industrial lasers have always proved to be difficult because of the power levels (affecting the power densities) that these lasers operate at. Yet, the measurement of these lasers are critical for their success because of thermal effects which are more of a factor at these higher powers. These high-power performance measurement products have proven to be solutions for laser users who operate and maintain these high-powered lasers
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LS-n -
Applied NanoFluorescence, LLC
The LS-n is a customizable, compact fluorescence excitation source that provides up to four different laser wavelengths in a single combined output beam, with each laser individually controllable using ANF's custom software. An LS-4 unit (containing four lasers) is included with each standard NFM NanoFluorescence Microscope.
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Duma Optronics LTD
The advantages of fiber lasers are their high power, mechanical stability and good beam quality; however beam quality and beam profile has to be periodically checked. In general, there are many difficulties in checking beam quality especially at the focal point, where densities will exceed 50KWatt per square cm. On one hand those energies are capable of melting and destroying most known materials, while on the other hand measuring a focused profile is the most significant measurement.
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BeamGage -
mks Ophir
See your beam as never before with BeamGage®. The camera-based beam profiling system consists of a camera and analysis software. Often times, this system will need to be used with beam attenuation or beam sizing accessories, depending on your laser application. The advantage to camera-based beam profiling is the real-time viewing and measuring of a laser’s structure. BeamGage software includes an extensive set of ISO quantitative measurements, features a rich graphical interface, and features its patented UltraCal™ algorithm, providing the industry’s highest accuracy measurements.
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Pacific Laser Systems
Fast, accurate and portable, PLS laser levels save time and money versus traditional layout methods using a bubble vials, plumb bobs or complex measurements. Compare the benefits PLS laser tools: Beam quality will be bright, thin and crisp. Drop tested with water and dust Ingress Protection (IP). Designed for the professional contractor with self-leveling technology. Green Laser Levels, Rotary Lasers, Point Lasers and Line and Combo Lasers.
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AB Controls, Inc.
Lix is a class of instruments for automated laser beam profiling, power measurement and analysis with integrated machine vision.
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Duma Optronics LTD
The beam propagation factor M2 is a common single parameter that charac-terizes the whole beam as it propagates through space. According to ISO standard 11146, this parameter could be defined by several measurement techniques based on beam profiling along several points of the propagating beam. The standard defines several measurement techniques, all of which are based on beam profiling measurements using devices such as cam-eras, knife edge and slits. There are two main measurement requierments - 1) Measurements of focused beams. 2) Measurements of collimated beams. Our M2 devices are capable of measurements of both laser types and due to their modular design interchangeable heads can be mounted in same M2 gear.
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Ophir
Laser beams with powers of many tens of kilowatts are becoming increasingly common in today’s industrial applications. However, as the powers increase, the stakes increase as well. In this webinar, we will discuss how to monitor appropriate laser parameters to keep high-power processes stable and predictable.