Showing results: 181 - 190 of 190 items found.
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Applied Image, Inc.
The APPLIED IMAGE series of Image Analysis and Stage micrometers are ideally suited for calibrating optical, imaging, video, and reticle-based measurement systems. Designed for ease of use and manufactured for durability, the SM Series has both English and Metric scales in one or two axis configurations. Both types of micrometers come with NIST traceable calibration standards and are available on multiples substrates to perfectly fit your needs. The experience APPLIED IMAGE has in manufacturing precision imaged optical components makes us the trusted source for standards for magnification system microscopy and vision applications. Should you need to alter feature patterns, size, or substrate, fill out our Custom Optical Components and Standards form to start the conversation.
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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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HORIBA, Ltd.
For spectroscopy and microscopy experiments in the UV/Vis/NIR region of the spectrum, a photomultiplier tube (PMT) is the ideal detector for quantitative low light level measurements. A PMT is extremely sensitive, with very wide dynamic range so it can also measure high levels of light. PMT’s are also very fast so rapid changes in optical signals can be reliably monitored. As a practical matter, PMTs are durable, long-lived, and economical.HORIBA provides a simple, self contained PMT housing that operates in either analog or photon counting modes with the flick of a switch. This ambient PMT housing is ideal for standard side-on PMTs that are used from 185 to 900 nanometers. It has a very low dark count for a non-cooled PMT housing providing a dark count of only ~ 50 to 500 counts per second (cps) depending on the PMT selected.
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Bruker Daltonics
Bruker’s suite of fluorescence microscopy systems provides a full range of solutions for life science researchers. Our multiphoton imaging systems provide the imaging depth, speed and resolution required for intravital imaging applications in neuroscience, oncology and immunology. Our confocal systems enable cell biologists to study function and structure using live-cell imaging in cell cultures and invertebrate model organisms at speeds and durations previously not possible. Bruker’s super-resolution microscopes are setting new standards with quantitative single molecule localization which allows for the direct investigation of the molecular positions and distribution of proteins within the cellular environment. Our latest addition, Luxendo light-sheet microscopes, are revolutionizing long-term studies in developmental biology and investigation of dynamic processes in cell culture and small animal models.
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Bruker Corporation
Bruker’s suite of fluorescence microscopy systems provides a full range of solutions for life science researchers. Our multiphoton imaging systems provide the imaging depth, speed and resolution required for intravital imaging applications in neuroscience, oncology and immunology. Our confocal systems enable cell biologists to study function and structure using live-cell imaging in cell cultures and invertebrate model organisms at speeds and durations previously not possible. Bruker’s super-resolution microscopes are setting new standards with quantitative single molecule localization which allows for the direct investigation of the molecular positions and distribution of proteins within the cellular environment. Our latest addition, Luxendo light-sheet microscopes, are revolutionizing long-term studies in developmental biology and investigation of dynamic processes in cell culture and small animal models.
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Anderson Materials Evaluation, Inc.
Our numerous analytical techniques, we tackle a wide range of materials challenges and commonly combines several analytical techniques to fully address complex and multi-dimensional materials issues. Our materials analysis laboratory provides XPS surface analysis, thermal analysis (TGA, DSC, TMA), FTIR infrared spectroscopy, UV-Vis spectrophotometry and reflectivity measurements, gas chromatography – mass spectroscopy (GC-MS), SEM/EDX, optical microscopy, mechanical testing, electrochemistry and corrosion analyses, residual gas mass spectroscopy, contact angle measurements, surface contamination measurements, adhesive bonding failure analysis, facility testing for silicone contamination, mechanical testing, metallography and fractography, density and porosity measurements, volatile organic component testing, friction, and other analytical capabilities. We continue to upgrade and expand our arsenal of analytical techniques and custom analytical methods to support our customers’ needs.
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Wildcat+ 640 TE0 and WL Series -
Xenics
The Wildcat+ 640 TE0 and WL series is based upon a state-of-the-art uncooled InGaAs detector with 640×512 pixels and 20 μm pixel pitch. The WL version uses a special windowless sensor package for laser beam analysis applications. 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 TE0 and WL cameras output full frame images at 220 Hz via either a CameraLink or USB3 Vision interface.The Wildcat+ 640 TE0 and WL 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- GenICam complaint- Flexible optical mount and lens options
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Thorlabs, Inc.
Thorlabs' Scientific-Grade Cameras are specifically designed for microscopy and other demanding applications. The Zelux™ CMOS cameras have small footprints and provide cost-effective solutions for general-purpose imaging applications. Kiralux® cameras have CMOS sensors with high quantum efficiency in a compact housing and are offered in monochrome, color, NIR-enhanced, and polarization-sensitive versions. Our polarization-sensitive CMOS camera is ideal for materials inspection, flaw detection, and other advanced techniques using polarization. The Quantalux® monochrome sCMOS cameras are fast frame rate imagers that combine high dynamic range with extremely low read noise for low-light applications. They are available in either a passively cooled compact housing or a hermetically sealed TE-cooled housing. We also offer scientific CCD cameras with a variety of features, including versions optimized for operation at UV, visible, or NIR wavelengths; fast-frame-rate cameras; TE-cooled or non-cooled housings; and versions with the sensor face plate removed. An intuitive software package, API and SDK for developers, and third-party software support provide options for custom system control and image acquisition.
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Linkham Scientific Instruments
Specialists in temperature controlled microscopy, Linkam Scientific Instruments, announce the launch of their Optical DSC450 which enables simultaneous visualization of thermal processes for improved materials characterisation. The Optical DSC450 enables the user to measure glass transitions and melting behaviour of a wide range of substances whilst accurately controlling temperature from -196 °C to 450 °C. The atmosphere of the stage can also be purged with gas as required by the user. A new feature which will increase the characterisation capabilities of the DSC system is to combine it with imaging capability. The new LINK Digital Imaging module enables additional information to be obtained by correlating optical changes such as colour with temperature. The new TASC analysis tool takes this further. TASC (Thermal Analysis by Surface Characterisation) is a new image analysis capability which enables structural changes in samples to be tracked and quantified optically. It has the unique ability to measure local transition temperatures allowing different points on a sample to be identified. The new DSC system is great tool to use in research and quality control to measure quantitative values for glass transitions, melting peaks and sample purity and, when combined with TASC, even sample homogeneity.
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Hill Engineering, LLC
Fatigue engineering is subject to uncertainty, and data from well executed tests are used to validate conclusions made by analysis and to provide a basis for structural certification. Our staff have extensive experience in testing materials and components under slowly varying, static loads, and under rapidly varying cyclic loads. Tests under static loads are used to assess material properties or to assess the load-deformation behavior of structural components. Tests under cyclic loads provide time to crack initiation, time to failure, or measurements of crack growth over time. We have extensive experience in measuring fatigue crack growth behavior in metallic materials. Past programs have measured crack growth with microscopy and photogrammetry at the surface, cracked area with direct current potential drop, and through-thickness crack profiles with quantitative fractography. By assessing crack growth with a variety of experimental methods, we enable robust analysis validation for cases of complex cracking. Our capabilities in fatigue engineering allow for careful design of a fatigue test program. Whether the tests use constant amplitude loading or an irregular loading spectrum, we specialize in engineering the test that meet your needs. Much of our experience is in non-standard test programs, which require engineering to optimize the test setup. Few others match our capability and experience in fatigue test engineering.
