Photometry & Colorimetry
DECTRIS Hybrid Photon Counting detectors have transformend X-ray data acquisition at synchrotrons. Different detector series specifically developed for the requirements of laboratory and industry applications take advantage of DECTRIS’ synchrotron proven technology, while fitting laboratory budgets. Benefit from direct detection with minimal point spread and single-photon counting without any readout noise and dark current in your laboratory.
The EIGER R series features DECTRIS’ latest generation of Hybrid Photon Counting detectors for the laboratory. They combine renowned single-photon sensitivity with a pixel size of only 75 µm. Based on synchrotron proven technology, the EIGER R series offers the perfect match for all of your laboratory detector requirements.
The PILATUS3 R series brings all essential benefits of Hybrid Photon Counting technology from the synchrotron to the laboratory. As an evolution of the previous generation PILATUS, PILATUS3 R completes the unique advantages of our series of laboratory detectors: DECTRIS instant retrigger technology enables substantially enhanced count rates and highly accurate count rate corrections.
MYTHEN2 R Hybrid Photon Counting microstrip detectors fully exploit the benefits of single-photon counting technology: noise-free performance down to Ti K? radiation as well as fast data acquisition maximize data quality and throughput of any laboratory instrument. Direct detection in a silicon sensor offers an extremely sharp point spread function. In combination with a microstrip width of only 50 µm, this provides ultimate angular resolution.
Jenway offers the scientific instruments and laboratory equipment:
Dissolved Oxygen Meters
StellarNet, Inc. manufactures precision fiber optic spectrometers for portable and multi-channel industrial applications, which enable low cost spectroscopy solutions. Our expertise in electro-optics, software design, and applications development, provides unmatched price performance in the global instrumentation market
In 1993 StellarNet developed a miniature fiber optic spectrometer that connects to a computers parallel printer interface, a revolutionary advancement in high speed connectivity. The instrument is ruggedized for portability and works with all versions of Windows or embedded systems. The robust electro-optics deliver long-term reliable performance for demanding environments. A USB-2 interface now provides the ultimate spectrometer connectivity with up to 8 simultaneous channels.
Our headquarters is home to our extensive engineering/production and systems integration facilities where our spectrometers and integrated computer systems are designed, assembled and tested. Our Sales and Application Engineers are systems integration experts. We understand that successful implementation of process control applications require industrial strength components and demand extensive analytical know how to provide the best reliability and performance.
UV-Vis, NIR, Raman
Thin Film Measurement
Fiber Optic Spectrum Analyzers
ChemWiz Analyzer Development Kit
Gooch & Housego is a photonics technology business headquartered in Ilminster Somerset, UK with operations in the USA and Europe. A world leader in its field, the company researches, designs, engineers and manufactures advanced photonic systems, components and instrumentation for applications in the Aerospace & Defense, Industrial, Life Sciences and Scientific Research sectors. World leading design, development and manufacturing expertise is offered across a broad range of complementary technologies.
Gooch & Housego researches, design, engineers and manufactures photonic assemblies, systems and components based upon the following key enabling technologies:
Acousto-Optics: Q-switches, tunable filters (AOTF), modulators (multi or single channel), deflectors, pulse pickers and cavity dumpers, frequency shifters, mode lockers.
Electro-Optics: from G&H grown crystals: Pockels cells BBO LightGate, CdTe IRX , KD*P, TX series large aperture and lithium niobate Q-switches.
Fiber Optics: Active and passive fiber optic components, fiber optic assemblies, fiber coupled AOM, DFB and DBR Lasers, DFB laser drivers, single mode pump lasers, multi mode pump lasers, high speed, detectors. Manufacturing for rugged environments including high reliability and space.
Precision Optics: Thin film coating, birefringent, non-linear, planar and aspheric optics, assemblies, crystalline optics, infra-red Optics, glass engineering, research grade mirror substrates, ring laser gyroscope optics, sapphire polishing, silicon carbide polishing, solid etalons, superpolishing, waveplates, X-ray and synchrotron. Manufacturing opto-mechanical assemblies.
RF Electronics: Q-switch drivers, modulator drivers, AOTF drivers, fiber-coupled AOM drivers, AO device drivers.
Instrumentation: Spectroradiometers, spectral Imaging and synthesis, spectral radiance and luminance standards, spectral irradiance and illuminance standards, reflectance standards, integrating spheres, radiometer / photometers, detector standards, precision constant current sources, imaging photometers, colorimeters / photometers.
With over 50 years of experience in developing light measurement instruments, Gamma Scientific is trusted by the world’s leading organizations to provide accurate results. Based in San Diego, Gamma Scientific manufactures laboratory grade spectroradiometers, spectrometers, spectrophotometers and integrating spheres.
Gamma Scientific also operates an ISO 17025, NVLAP accredited laboratory (NVLAP Lab Code 200823-0) performing LM-79 and LM-80 tests for LEDs.
Gamma Scientific systems are designed to handle 24 hour operation on the production floor and feature near real-time measurement and powerful analysis software. Custom configurations are available to meet your unique testing requirements.
Spectroradiometers: As the inventors of the first high-performance, computer-controlled LED spectroradiometers, Gamma Scientific has continued to set the standard in spectroradiometer accuracy and reliability. RadOMA spectroradiometers are trusted by the world’s leading organizations to provide accurate measurements.
Integrating Spheres: With over 40 years of experience in designing integrating spheres, Gamma Scientific has the expertise to build custom integrating spheres and sphere systems to meet your testing requirements.
Thin Film Measurement Systems: Industry leading technology that allows manufacturers to perform single sided inspection on the first surface of any glass or polished, transmissive element while excluding the second surface.
Calibration Light Sources: Gamma Scientific manufacturers a full range of calibration light sources that are traceable to NIST. LED light sources offer linear programmable drive circuitry and active optical feedback.
Goniophotometers: Gamma Scientific’s 940 LED-1250 Goniophotometer is designed to analyze angle dependent spatial radiation properties of LED luminaires, lamps and modules.
Reflectometers: Complete your inspections faster, and achieve higher standards of quality with accurate, repeatable reflectometer systems from Gamma Scientific. Using non-destructive testing, you can measure complete spectral and colorimetric properties on substrates as thin as 0.5 mm, with a scan time of less than 0.2 seconds.
LED Testers and Sorters: As the inventors of the first high-performance, computer-controlled LED spectroradiometers, Gamma Scientific has continued to set the standard in LED spectroradiometer performance.
Optometers: UDT Instruments, a division of Gamma Scientific, offers an extensive selection of photometers, radiometers, lux meters, luminance meters and illuminance meters for photometric and radiometric testing applications.
NanoFocus AG is a developer, manufacturer, and distributor of measurement technology and software packages for the characterization of technical surfaces. The company has been active in this field since 1994. Our confocal optical 3D surface analysis tools offer perfect quality assurance, process control and manufacturing efficiency for all industries and applications. NanoFocus AG’s analysis systems allow high precision micro and nano scale 3D surface measurements. The innovative systems enable extremely fast, easy and contactless 3D measurements of topography, micro-geometry, roughness or other surface characteristics.
Materials Science Applications:
Optimizing functional properties if new surfaces and products:
Finding out in what way the structure of a material influences its properties and behaviour is the aim of materials science. High-resolution analyses of surfaces play an important role in determining relevant parameters like roughness, relection, tribological properties or the surface quality.
NanoFocus measurement systems guarantee analyses conform to international standards – for different measurement task and on all materials. Defined specifications are met and processes optimized. This means that costs are reduced while development times are shortened.
Non-contact 3D surface analyses independent of materials:
NanoFocus measurement systems enable the fast and reliable 3D surface analysis of nearly all materials – from metal, glass, ceramics, semi-conductors, polymers to organic materials. The confocal technology enables determining reliable measurement data independent of the degree of reflection of a surface. The optical method of the NanoFocus-technologies µsurf, µscan and µsprint also enables the non-destructive measurements of sensible surfaces at different stages of production and processing. The measurements of coated surfaces and the determination of layer thickness are also possible.
A previous sample preparation is not necessary. Real 3D data is available after only a few seconds which allows a qualitative as well as a quantitative evaluation of the surface. For the determination of relevant parameters NanoFocus offers comprehensive and powerful software solutions for the analysis of measurement data.
Examples of application:
NanoFocus measurement systems have proven themselves in many areas of materials science due their flexibility. Within only a few seconds they deliver exact and repeatable 3D measurement data of nearly all surfaces. That is why the NanoFocus-technology is ideal for user who wish to analyze different materials.