Zygo Corporation introduces the next generation of optical profiling instruments designed to precisely measure surface area topography quickly and with ease for enhanced productivity and versatility. The Nexview NX2 instrument is based on innovative and versatile non-contact optical technologies. Ideal applications include research, precision engineering, quality control, and advanced manufacturing.
Zygo Corporation's NewView 9000 instrument is based on innovative and versatile non-contact optical technologies. Ideal applications include research, precision engineering, quality control, and advanced manufacturing.
The Ophir® Centauri is a compact, portable laser power and energy meter designed to make precise measurements of laser performance over time. This meter features a large, full-color, seven-inch touch screen for the review of visual data using a wide range of graphical display formats. The Centauri also offers advanced math functions, including density, scale factory, and normalize against baseline.
The new Ophir® Focal Spot Analyzer is a laser beam monitoring system designed to measure the focus spot and power of high power lasers in real time. Capable of measurement of focal sizes down to 35 µm and laser power from less than 1 to 400 Watts for wavelengths from 266 – 1100 nm, these analyzers are ideal for laser applications with shorter working distances.
LASER COMPONENTS designs and manufactures laser modules to fulfill specific requirements in industrial image processing applications -- a range of line lasers with a homogeneous power distribution generally used in metrology, as well as high power lasers and special housing units.
The BeamWatch® AM from Ophir® is an integrated laser measurement system created for measuring critical laser beam parameters for laser-based additive manufacturing systems. Simultaneous, real-time measurements are performed at video rates and are available for multiple profiles along the beam caustic in the camera field-of-view (FOV). These measurements include waist (focus spot) width and location, focal shift, centroid, M2 or K, divergence, beam parameter product, Rayleigh length, absolute power, and tilt angle measurements.
Diffractive optical elements (DOEs) from LASER COMPONENTS are designed to be used as multi-spot beam splitters in beam shaping, and beam profile modifications with lasers and high power lasers. Using diffractive elements for beam splitting is advantageous in the instance of needing one element to produce several beams, or when very exact power separation is required. DOEs can also achieve precise positioning to create holes at clearly defined and accurate distances.
BeamSquared is a high accuracy M2 laser beam propagation system that measures beam quality to optimize performance in continuous use applications, from scientific research to rapid prototyping to fabrication and machining.
With its FLEXPOINT Long Range Line Module, LASER COMPONENTS has developed a highly-precise positioning tool for long distances. Even at 50 m, the line is only 4 m long and can be adjusted to line widths of a few millimeters with an easy-to-use focusing device. The FLEXPOINT LR-L module is available with red (660 nm) or green (520 nm) lines. Customers have the choice of any output power in a range between 5 mW and 30 mW.
A new experimental method permits the X-ray analysis of amyloids, a class of large, filamentous biomolecules which are an important hallmark of diseases such as Alzheimer’s and Parkinson’s. An international team of researchers headed by DESY scientists has used a powerful X-ray laser to gain insights into the structure of different amyloid samples.
Thanks to its M18 thread, the FLEXPOINT MV18 line laser module can easily be integrated into standardized systems. LASER COMPONENTS is going to present this new product at the Vision Show 2018 in Boston, Massachusetts. It is designed to deliver homogeneous power distribution along the entire projected line – an important requirement for its use in machine vision.
Zygo Corporation’s latest generation Nexview™ NX2 and NewView™ 9000 3D optical profiling instruments precisely measure surface area topography quickly and with ease for enhanced productivity and versatility, addressing a broad range of applications.
Stanford University researchers have developed a laser-based system that can reproduce images of objects hidden from view. The technology can be used to enhance the safety of self-driving vehicles, as well as applied to serve other functions.
OSI Laser Diode, Inc. (LDI), an OSI Systems Company, will showcase the SCW 1430 series of high-power pulsed laser modules for optical test equipment applications at OFC, March 13 - 15, 2018, San Diego Convention Center, San Diego, California, in booth #4730. The devices are specially designed for use in an optical spectrum analyzer (OSA) and for optical-time-division reflectometry (OTDR) tasks, or in other precision instruments and applications where high-peak-pulsed optical power is needed.
New research published in Nature Methods will dramatically improve how scientists “see inside” molecular structures in solution, allowing for much more precise ways to image data in various fields, from astronomy to drug discovery.
This year at Photonics West, Dan Ford with the Ophir Photonics Group talked to us about the importance of achieving laser consistency.
Jeff Briton and Dragan Grubsic discuss some of the challenges involved in operating pulsed laser diodes and avalanche photodiodes in LIDAR for the automotive and sensor markets.
In this video, Jimmy Green, an OEM Specialist, shares how Ophir Photonics assisted a lasik surgery company replace a plastic mode burn pre-test with an accurate laser measurement device.
This video describes how laser beam profiling with Ophir Photonics’ BeamGage showed why two different lasers running at the same power output produced different results.
In this video, Jimmy Green, an Ophir Photonics OEM Specialist, discusses an OEM solution provided to a customer that allowed for medical laser power development before and after procedures that ensured the proper outcomes.
In this video, Dick Reiley from Ophir Photonics shares how he provided a manufacturer a solution that allowed throughput to increase 4X by reducing the time required for quality inspection. This solution was specifically created for an application measuring laser diodes.
Eric Craven with Ophir Photonics provided us with a tutorial at DCS 2016 on how to co-align visible, near-infrared, and infrared laser beams through the use of a pyroelectric camera array coupled with beam profiling software.
Welcome to Photonics Online's Laser Resource Center — your complete source for laser solutions. Here you'll find everything you need to: learn about the latest developments in laser technology, evaluate offerings from leading laser suppliers, and ultimately select the right laser solution for your project. We cover everything from from diode and fiber lasers to complete laser systems for a broad range of applications. If you can't find exactly what you're looking for here, please feel encouraged to contact us for assistance.
