Showing results: 136 - 150 of 153 items found.
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Duma Optronics LTD
Many new generation lasers, having a spectrum which is out of the sensitivity response of typical camera detectors require different technologies to be ex-amined. Tomographic knife-edge technology offers a feasible solution. Multiple knife-edges scanning from different directions provide beam profiles depen-dent on scanning angle. By reconstruction techniques used in tomography, an image-like profile can be reconstructed and analyzed. Various detectors are used to provide a wide spectral range measurement capability
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55282A -
Keysight Technologies
The 55282A Flatness Accessory Kit is composed of an 10759A Footspacing Kit and two 10773A Flatness Mirrors. The footspacing kit provides three precision baseplates, with 50.8 mm (2 in), 101.6 mm (4 in), and 152.4 mm (6 in) pad spacing respectively, that minimize the grid setup and data accumulation time required for plate calibration. The flatness mirrors provide 100 percent reflectance and turn the direction of an incoming laser beam 90 degrees.
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Lumetrics Inc.
Lumetrics has applied the ingenious Shack-Hartmann sensor to a range of wavefront measurement systems ideal for analyzing optics-related products and materials, from contact lenses to intraocular lenses to laser beam analysis, surface measurement, and phase parameters. While Shack-Hartmann technology may be widely adopted in the wavefront metrology industry, Lumetrics has applied the technology in unique ways and added industry-leading hardware and software features to our systems that offer you significant advantages over our competitors.
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HASO4 FIRST -
Imagine Optic
HASO4 FIRST is the ideal choice for results driven professionals in domains including adaptive optics, optical process optimization, laser beam characterization, and many others. Thanks to our patented technology, the HASO family by Imagine Optic are world's only sensors with no bias error, keeping its phase accuracy on any measured intensity profile (Gaussian, Top-Hat, hyper Gaussian, etc.). The USB 3.0 connectivity and the ergonomic design allow an easy plug and play installation of the HASO4 FIRST in any application.
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JOHO18 -
Wuhan JOHO Technology Co., Ltd
JOHO18 Laser Range Finder Featuring with low weight, low signature designator, JOHO18 laser range finder is tend to be used by paramilitary as a stand alone device or integrated into an electro-optical tracker turret. Features and BenefitsLong range up to 18kmFlexibility of use as alone device or working with thermal camera or night visionLightweightTechnical DataRanging300m~18000m (tank: 2.3mx2.3m)Beam divergence 1.2mrad Repeat frequency3Hz, working 1 min, have a rest 1minAccuracy rate98%Wavelength1.064mCommunication interfaceRS-422Power supply24V~30VDCDimension300mm160mm130mmWeight<5kgReliabilityMNBF 20000 timesMTTR 30minEnvironmental parametersVibration5Hz~200Hz~5Hz,1.5g ,3 direction, each direction 12minShock30g, 11ms, 3 vertical axis direction total 18timesWorking temperature-40~+55Storage temperature-55~+70Relative humidity953%35EMCMeet GJB151A relevant requirements.
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HD-T1 -
Panasonic Industrial Devices Sales Company of America
The HD-T1 Series is a new Wafer Alignment Sensor that uses a safe red LED light beam, with a resolution of 30µm, to achieve the same high level performance as Laser Sensors. The HD-T1 Sensor is best suited to detect wafer eccentricity, notches and orientation flats. Using linear image Sensor methodology and high-speed sampling technology, a wide variety of objects can now be stably measured with great precision at ultra-high speeds. This CCD style Sensor is developed for use in almost all fields of industry, e.g. tire manufacturing or Semiconductor production (Wafer Printed Circuit Boards).
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Pulsed Electron Deposition -
Neocera, Inc.
Is a process in which a pulsed (80-100 ns) high power electron beam (~1000 A, 15 kV) penetrates approximately 1 μm into the target resulting in a rapid evaporation of target material. The non-equilibrium heating of the target facilitates stoichiometric ablation of the target material. Under optimum conditions, the target stoichiometry is preserved in the deposited films. All solid state materials – metals, semiconductors and insulators, including those transparent to laser wavelengths in PLD – can be deposited as thin films with PED. By combining PLD and PED, the range of complex materials that can be prepared as thin films can be greatly enhanced.
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Wave Optics Module -
COMSOL, Inc.
The Wave Optics Module provides dedicated tools for electromagnetic wave propagation in linear and nonlinear optical media for accurate component simulation and optical design optimization. With this module you can model high-frequency electromagnetic wave simulations in either frequency- or time-domain in optical structures. It also adds to your modeling of optical media by supporting inhomogeneous and fully anisotropic materials, and optical media with gains or losses. It is straightforward to simulate optical sensors, metamaterials, optical fibers, bidirectional couplers, plasmonic devices, nonlinear optical processes in photonics, and laser beam propagation.
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Thorlabs, Inc.
Our LSK-GR08(/M) Galvo-Resonant Scanner contains one resonant scan mirror and one galvo scan mirror that deflect an incident laser beam in X and Y, respectively. Identical to the galvo-resonant scanner used in our Bergamo® II multiphoton microscopes and complete Cerna®-based confocal systems, the 8 kHz resonant frequency of the resonant scan mirror enables much higher-speed scans than a galvo-galvo system. In our Bergamo system, the scanner can achieve 30 fps at 512 x 512 pixels image resolution.
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InSight X3 -
Spectra-Physics
Spectra-Physics’ new InSight® X3™ is the third generation of Spectra-Physics’ industry leading InSight platform, specifically designed for advanced multiphoton microscopy applications. Based on patented technology1, InSight X3 features a broad 680 nm to 1300 nm continuous, gap free tuning from a single source, nearly double the tuning range of legacy Ti:Sapphire ultrafast lasers. InSight X3 delivers high average and peak power levels across the tuning range, including critical near infrared wavelengths above 900 nm for deepest penetration in-vivo. With Spectra-Physics’ integrated patented DeepSee™, the industry standard dispersion pre-compensator, the short pulses are optimally delivered through a microscope to the sample for maximum fluorescence and penetration depth. InSight X3 also has exceptional beam pointing stability, beam quality and output power stability, as well as fast wavelength tuning, making it ideal for microscopy.
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SolsTiS -
M Squared Lasers
Award-winning SolsTiS is a next generation continuous-wave Ti:Sapphire laser designed to meet the needs of pioneering scientists looking for high performance, ease of use, system flexibility and reliability. This fully automated, compact system features a completely sealed, alignment-free cavity with hands-free operation, an unprecedented tuning range, unrivalled power, and the ultimate narrow linewidth, low noise output. SolsTiS has options of high power output up to 5W, linewidths <50 kHz and amplitude noise of less than 0.05%. SolsTiS is made to order giving you the ability to specify your linewidth, output power and wavelength range. Fully integrated accessories such as beam pick-off and fiber coupling are available.
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HASO3 FAST -
Imagine Optic
Our HASO3 Fast Shack-Hartmann wavefront sensors provide fast accurate and reliable measurements by uniting the standard HASO family's standard functionalities that customers have come to rely on, including absolute measurement, unequalled accuracy and insensitivity to vibration, with an acquisition speed of 905 Hz and a spatial resolution of 14 x 14 microlenses.When coupled with our HASOv3 software package, you can perform both zonal and modal wavefront reconstruction; calculate the PSF*, MTF* and Strehl ratio*; visualize the spot diagram; and obtain the M* parameter. Adaptive optics users can take advantage of our CASAO software package to control adaptive optics loops to compensate for atmospheric turbulence, optimize the focal spots of laser beams and Freespace communications.
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Wildcat+ 1280 Series -
Xenics
The Wildcat+ 1280 series is based upon a state-of-the-art InGaAs photodiode array with 1280×1024 pixels and 5 μm pixel pitch. The camera offers superior, high-resolution SWIR imaging capabilities, comes in a versatile and industry-proven Wildcat camera package (GenICam compliant) and offers advanced on-board image processing.The Wildcat+ 1280 camera outputs full frame images at 120 Hz via either a CameraLink or USB3 Vision interface.The Wildcat+ 1280 is suitable for semiconductor inspection, display inspection (mobile phone and TV), microscopy and laser beam analysis.Benefits & Features• Compact and industry-proven camera design• High-resolution SWIR imaging• Advanced on-board image processing performance• GenlCam compliant• Flexible optical mount and lens options
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Wildcat+ 640 Series -
Xenics
The Wildcat+ 640 series is based upon a state-of-the-art InGaAs detector with 640×512 pixels and 20 μm pixel pitch. The camera offers superior, high resolution SWIR imaging capabilities, comes in a versatile and industry-proven Wildcat camera package (GenICam compliant) and offers advanced on-board image processing.The Wildcat+ 640 camera outputs full frame images up to 300 Hz via either a CameraLink or USB3 Vision interface.The Wildcat+ 640 is suitable for semiconductor inspection, display inspection (mobile phone and TV), and laser beam analysis.Benefits & Features- Compact and industry-proven camera design- High-resolution SWIR imaging- Advanced on-board image processing performance- GenICam complaint- Flexible optical mount and lens options
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LumiSun-50 -
Innovations In Optics Inc.
The LumiSun-50™ is a high power, multi-wavelength LED solar simulator that meets IEC 60904-9 Class AAA for spectral match, uniformity of irradiance, and temporal stability. The LumiSun-50 achieves a spatially uniform illumination field from a chip-on-board (COB), multiple-wavelength LED die array. The field of illumination is 50 x 50 mm at a working distance of 200 mm. The LumiSun-50 includes a driver/controller which individually provides constant current to each die in the COB array. Total irradiance of 1.1 sun units is provided and can be decreased to 0.1 suns. The LED light source of the LumiSun-50 is contained within an air-cooled housing that can rotate the angular beam alignment. Adjustment and setting of the optimum light path working distance is visually facilitated by a converging pair of red dot laser pointers.
