Showing results: 211 - 225 of 234 items found.
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AMS Technologies AG
AMS Technologies has a long track record of developing and manufacturing customized optical technologies solutions – tailored to the requirements of applications like: *Life Sciences *Biomedical Photoacoustic Imaging; Photoacoustic Microscopy, *Mesoscopy, Macroscopy *MALDI Mass Spectrometry (Matrix Assisted Laser Desorption Ionisation) *Fluorescence Lifetime Imaging (FLIM) *Pumping of Dye Lasers, OPOs, Raman Lasers *LIDAR *Gas Chromatography *Interferometry *Sensing *Micromachining *Marking *And Many More…
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Model 6400TH -
Teledyne Analytical Instruments
The 6400T Series analyzers uses a proven UV fluorescence principle coupled with state-of-the-art microprocessor technology to provide accurate and dependable measurements of low level SO2. The 6400T-H2S measures hydrogen sulfide (H2S) by incorporating a catalytic converter set at 600°F (315°C) to oxidize H2S into SO2 while leaving other more difficult to oxidize sulfurs unconverted. A switching mode allows analysis of both H2S and SO2 concurrently.
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Model 6400T -
Teledyne Analytical Instruments
The 6400T Series analyzers uses a proven UV fluorescence principle coupled with state-of-the-art microprocessor technology to provide accurate and dependable measurements of low level SO2. The 6400T-H2S measures hydrogen sulfide (H2S) by incorporating a catalytic converter set at 600°F (315°C) to oxidize H2S into SO2 while leaving other more difficult to oxidize sulfurs unconverted. A switching mode allows analysis of both H2S and SO2 concurrently.
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Model 6200T -
Teledyne Analytical Instruments
The Model 6200T Total Sulfur Analyzer utilizes proven UV fluorescent technology to continuously detect sulfur found in inert gas streams. An internal, quartz catalytic converter is employed to convert the sulfur, when mixed with scrubbed ambient air, into SO2 via higher temperature oxidation. An internal vacuum pump is employed to draw both the sample and the ambient air into the converter. The converted sample gas is fed to the fluorescence chamber where it is then exposed to ultraviolet radiation.
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Teledyne Advanced Pollution Instrumentation
Teledyne API's Sulfur compound analyzers utilize familiar UV Fluorescence technology to produce reliable and accurate gas measurements. All T Series instruments offer two front-panel USB ports, an advanced touch screen full color display, customizable user interface with predictive maintenance alerts, one-touch real-time graphing, and multiple language support. All of our instruments are designed meet the rigorous demands of ambient air quality, stack, or industrial process gas monitoring.
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MEXA-1170SX -
HORIBA, Ltd.
The MEXA 1170 SX is a new instrument used to measure sulfur for after treatment and transient lubricant oil consumption. The analyzer uses ultraviolet fluorescence (UVF) for detection and it can be operated in a total sulfur mode, analyzing sulfur oxides, hydrogen sulfide and all organic sulfur compounds. An inorganic sulfur mode will analyze hydrogen sulfide and the sulfur oxides. The final operational mode will analyze just the sulfur oxides. Any one of these modes can be selected by the user from a front panel interface.
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NanoSight Range -
Malvern Panalytical Ltd
The Malvern Panalytical NanoSight range of instruments utilizes Nanoparticle Tracking Analysis (NTA) to characterize nanoparticles from 10nm -2000nm* in solution. Each particle is individually but simultaneously analyzed by direct observation and measurement of diffusion events. This particle-by-particle methodology produces high resolution results for nanoparticle size distribution and concentration, while visual validation provides users with additional confidence in their data. Both particle size and concentration are measured, while a fluorescence mode provides differentiation of intrinsic or fluorescently labelled nanoparticles.
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Teledyne Monitor Labs
TML's Sulfur compound analyzers utilize familiar UV Fluorescence technology to produce reliable and accurate gas measurements. All T Series analyzers offer two front-panel USB ports, an advanced touch screen full color display, customizable user interface with predictive maintenance alerts, one-touch real-time graphing, and multiple language support. All of our analyzers are designed meet the rigorous demands of ambient air quality, stack, or industrial process gas monitoring.
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FiberLabs Inc.
ASE(Amplified Spontaneous Emission) light sources are low-coherent light sources ,which combines the both features of high intensity like laser and broad spectrum like LED. Output stability is greater than those of LD and LED, and therefore they are suitable for high accuracy measurement applications. With the use of rare-earth-doped fluoride fibers, the plentiful lineup of FiberLabs light sources includes the 540 nm-, 850 nm-, 1300 nm-, 1480 nm- and SCL-bands that other companies do not provide.They are the best light sources for FBG sensors, OCT, fiber optic gyroscopes, gas sensors, and fluorescence excitation, as well as for measurement of optical components. The bench-top type is easy to use as a stand-alone light source and the modular type is convenient for integration into equipments.
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Thorlabs, Inc.
Welcome to Thorlabs; below you will find links to our imaging systems and components. The products below are not only designed specifically for imaging applications, but they can be easily integrated into our entire line of photonics products. This makes it easy to modify or build custom imaging systems. Thorlabs’ Selection of Imaging Systems consists of our Laser Scanning Microscopy systems and OCT Imaging Systems. Our Laser Scanning Microscopy offering includes multiphoton and confocal fluorescence microscopy systems. Thorlabs is a leader in the development of Optical Coherence Tomography (OCT) Imaging Systems. We offer complete systems as well as a selection of components that are ideal for constructing a custom OCT system. Our series of Laser-Scanning Cytometry instruments are non-confocal systems that utilize laser-spot scanning illumination. The detection system, which combines PMTs for fluorescence detection and photodiodes for absorbance and scatter detection, offers excellent quantitative cytometric performance and imaging capabilities. Our Burleigh® line or microscope platforms, micromanipulators, and accessories provide leading edge stability and control for electrophysiology research, and our line of Optogenetics equipment includes fiber optic components and light sources for in vivo optical stimulation for neuroscience research.
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Vulcan -
Oxford Instruments plc
Vulcan is the fastest metals analyser available, taking just one second to measure metal alloys - that’s faster than any XRF (X-ray fluorescence) analyser or any other laser product on the market. In quality control and quality assurance this means that large inventories of incoming raw materials or finished parts can be checked very quickly. Large quantities of scrap metal can be sorted in scrapyards easily and fast. Vulcan offers high performance and guarantees very high accuracy and precision for its analysis results. For example, when analysing aluminium, it not only provides the commercial grade of aluminium but also its accurate chemical composition. As Vulcan is so simple to operate, possible user error has been significantly reduced if not almost completely eliminated, so the results obtained from analysis will be reliable and consistent.
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TacticID®-1064 -
B&W Tek, Inc.
The TacticID®-1064 is a field-ready handheld spectral analysis instrument designed for non-contact forensic analysis by safety personnel and first responders, including law enforcement personnel, bomb squads, customs and border patrol, hazmat technicians, and more. The TacticID®-1064 utilizes proven Raman spectroscopy, allowing users to get real-time actionable identification of unknown chemicals, explosives, narcotics, pharmaceutical drugs and many other substances while reducing operational uncertainty and response time. The TacticID®-1064 includes a comprehensive library of over 10,000 substances. In addition, users have flexibility to create their own libraries. By utilizing the 1064nm wavelength, the TacticID®-1064 avoids fluorescence, allowing users to get results in less than 1 minute even when working with tough street samples.
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Sydor Technologies
Photek photon-counting camera systems are unique as they provide the ability to capture and integrate an image in real time. These systems are ideal for extremely low photon emission applications such as bio-luminescence, chemi-luminescence and weak fluorescence. The ability to accurately analyze transient events is a key feature of this product. The length of time that the image can be integrated is limited only by disc space, and allows the user to fully capture real-time events. X, Y and time co-ordinates for post acquisition analysis is also recorded. X-ray and vacuum imaging camera options are also available.
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MIDEX -
SPECTRO Analytical Instruments GmbH
Small spot energy dispersive X-ray fluorescence (ED-XRF) spectrometer optimized for precious metal testing. Analyzing precious metals alloys, SPECTRO MIDEX provides high precision and accuracy for a wide range of concentration levels — plus record-setting testing times (as low as 15 seconds). For small jewelry items or drill cuttings from remelted samples, it analyzes a small spot (typically 1.2 mm). For silver samples, which may be relatively inhomogeneous, averaged results from an optional larger spot size maintain high-accuracy results.
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BaySpec, Inc.
The porous carbon SERS substrate provides not only high signal enhancement due to its strong broadband charge-transfer resonance for large chemical enhancement (as opposed to electromagnetic enhancement in traditional metal-based SERS substrates), but also extraordinarily high reproducibility or substrate-to-substrate, spot-to-spot, sample-to-sample, and time-to-time consistency in SERS spectrum (which is not possible with traditional metal-based SERS) due to the absence of "electromagnetic hot spots" by making the entire surface of the substrate "chemically hot", high durability due to no oxidization, and high compatibility to biomolecules due to its fluorescence quenching capability.
