Showing results: 271 - 285 of 886 items found.
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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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EarthImager 2D -
Advanced Geosciences, Inc.
AGI EarthImager 2D is the new standard for affordable time domain Resistivity & IP Imaging software.With this software data collected with the AGI SuperSting earth imaging resistivity instruments can be interpreted into easy to read 2D earth sections. The processed data can be output to varius types of files and can be processed into reports ready for submission to the client.
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Scion OTM -
Teledyne FLIR
The FLIR Scion® OTM captures clear thermal imaging and leverages a refined user interface to quickly detect objects of interest in complete darkness and through glaring light or haze. Built around FLIR’s powerful Boson core, the Scion OTM produces 9 or 60 Hz thermal imaging and records geotagged video and still images for playback long after the day is done. A rugged, IP67-rated housing and intuitive controls allow single-hand operation in harsh weather conditions, maintaining reliable thermal imaging in the most demanding outdoor environments.
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INFINITY3S-1UR -
Teledyne Lumenera
The Teledyne Lumenera INFINITY3S-1UR is the go-to microscope camera when versatility, ease of use, and price are part of the selection criteria.The INFINITY3S-1UR is an ultra-sensitive, low noise CCD camera that offers the speed and accurate color to meet your brightfield imaging requirements, and helps save money by converting into a solution for your routine fluorescence imaging needs.
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TacFLIR® 280-HD -
Teledyne FLIR
TacFLIR 280-HD is a high-performance land-based imaging system designed to identify and track smugglers, terrorists, or any other threat – day and night, and in the toughest terrain. Tailored for mobile deployment with high definition imaging and powerful optics and INS, TacFLIR 280-HD reveals the details necessary for long range vehicle detection, identification, and threat assessment.
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FLIR M364 -
Teledyne FLIR
Pairing a rugged, all-weather design with one of the most advanced FLIR thermal imaging cores, the M332 and M364 deliver awareness-enhancing thermal vision for law enforcement, commercial, and recreational applications. Advanced gyro-stabilization and high-performance thermal imaging detect obstacles and targets in complete darkness and heavy seas, allowing safe navigation in the most challenging conditions.
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FLIR M332 -
Teledyne FLIR
Pairing a rugged, all-weather design with one of the most advanced FLIR thermal imaging cores, the M332 and M364 deliver awareness-enhancing thermal vision for law enforcement, commercial, and recreational applications. Advanced gyro-stabilization and high-performance thermal imaging detect obstacles and targets in complete darkness and heavy seas, allowing safe navigation in the most challenging conditions.
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Prime 95B -
Teledyne Photometrics
The Prime 95B Scientific CMOS camera allows you to overcome many difficult imaging challenges by converting nearly every available photon to useful signal through an incredible 95% Quantum Efficiency by using the first available scientific CMOS sensor with back-side illumination. The result is the most sensitive CMOS camera available for scientific imaging.
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Carl E. Holmes Company
MRI Power Supplies are used in MRI Imaging rooms in hospital environments. The lights in the MRI rooms require DC power. If AC power is used, the quality of the MRI imaging process is compromised. These units are ideal for the MRI room, where a 60 Hz flicker-free light environment is desired. CEHCO offers four models which are shown below.
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Lambert Instruments BV
The TRiCATT is a compact lens-coupled image intensifier for scientific and industrial applications that require:– Low-light level imaging– Ultra-short exposures through fast gating– Frequency-domain imaging using lock-in detectionAny camera with C-mount and a 1/2″, 2/3″, or 1″ image sensor is compatible with the TRiCATT. You can find the right TRiCATT for your camera with our interactive calculator.
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China Sheenrun Electronics Co.
*Highly integrated design, integrating infrared thermal imaging, visible light, ranging and positioning, video recording and storage
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Zygo Corporation
Optical imaging applications are broad and varied. Testing at a system's design wavelength is critical for development, final alignment and qualification.
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New Imaging Technologies
Our SWIR or Short-Wave Infrared imaging covers the wavelength range from 900nm to 1700nm. A large number of applications that are difficult or impossible to perform using visible light are made possible, with great results, using short-wave infrared (SWIR) imaging thus enabling the user to "See Beyond the Visible". SWIR is similar to visible light in that photons are reflected or absorbed by an object, providing the strong contrast needed for higher resolution imaging– unlike thermal images, that rely on radiated photons. At NIT, we offer unique SWIR cameras and sensors, see below for more information on our products.
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FVMPE-RS -
Olympus Corp.
The Olympus FVMPE-RS multiphoton imaging system is purpose-built for deep imaging in biological tissue, aimed at revealing both detail and dynamics. Innovative features for efficient delivery and detection of photons in scattering media enable high signal-to-noise ratio acquisition. This translates to bright images with precise details — even from deep within the specimen. High sensitivity is matched with high-speed imaging to capture rapid in vivo responses. For advanced applications, dual-wavelength excitation extending to 1300 nm is available. Independent control of visible or multiphoton laser light stimulation and the ability to synchronize with patch clamp data are also possible.