Denton Vacuum transforms barriers into thin-film technology breakthroughs for customers across the globe in providing vacuum deposition systems. With operations in the United States and China, Denton engineers, designs and develops systems that precision-coat aerospace components, advanced optics, medical implants, solar cells, semiconductor devices and much more. Denton's technology portfolio includes thermal evaporation, ion beam etching, ion-beam-assisted evaporation, plasma-enhanced-chemical-vapor deposition (PECVD), and ion-beam-assisted deposition (IBAD) and e-beam evaporation and magnetron sputtering system (including reactive sputtering). Denton also provides value-added services and lifetime support that set new industry standards. Fifty years of tireless innovation have produced robust offerings ranging from high-volume production platforms to unique custom-engineered systems.
Techniques
Ion Beam Assisted Deposition
Ion Beam Deposition
Ion Beam Etchning
PECVD
PVD
Magnetron Sputtering
Reactive Beam Etch
Sputtering
Thermal Evaporation
ER Precision Optical (ERPOC), incorporated in March of 1992, is a diverse materials and precision optics manufacturing company located in downtown Orlando. ERPOC provides custom infrared materials and precision optical components to the defense & aerospace, semiconductor, solar, electronics and medical markets.
The ONLY U.S. manufacturing facility providing germanium and silicon crystals to meet your most advanced IR applications. We are ISO certified, ITAR compliant, Small Business / HUBZone classified to benefit government supplier requirements. ERPOC provides competitive prices with the shortest lead times.
The new ERPOC has installed the latest state-of-the-art precision tooling and advanced metrology tools which enable us to maximize our machining capabilities, minimize production costs and provide you the assurance that we meet your tightest specifications on all the materials and parts we deliver.
ER Precision Optical has invested significantly the past year in our new expansion in crystal growing. We are now fully functional with four crystal pullers and have more than doubled our capacity. Our new expansion specializes in optical grade Germanium and silicon. We also offer semiconductor or electronic grade and solar grade silicon. Materials are available in full ingot form, generated blanks, or as finished product. We have CofCs available for all our material upon request to assure your specifications are met.
EKSPLA is manufacturer of lasers, laser systems and laser components for R&D and industrial applications. Since its beginning, the company has aimed at production of high performance advanced solutions.
New ideas, broad knowledge of its engineers and physicists coupled with skilled and experienced staff have made it possible to create an exclusive company.
EKSPLA is member of Lithuanian photonics cluster and Baltics photonics cluster. Close cooperation with academic and industry partners enable to contribute to EU and international projects like OPTIX (an advanced system for detecting explosives in terrorist attack situations) and APPOLO (consortium for establishing and coordinating connections between the end-users and manufacturers).
Starting from a picosecond Nd:glass laser and a small series of mechanical mounts, EKSPLA has significantly increased its production range and now offers to its customers:
Solid-state lasers, laser systems and accessories for R&D applications
Optical parametric oscillators/generators
Complete spectroscopy systems
Laser power supply and cooling units
Laser optoelectronics
Industrial DPSS lasers
Custom designed laser system
FIBERCONTROL designs and manufactures high quality, innovative polarization related products for a host of applications within the fiber optic industry. Our customers include researchers, developers, and manufacturers working in the area of fiber optics for telecommunication equipment providers, optical/electro-optic component suppliers, and research institutes within universities.
Our products include fiber based polarization stabilizers, polarization controllers and polarization-state scramblers. All products are patented or licensed. Close collaborations with major telecommunication equipment providers as well as test/measurement providers around the world, enable our products to find immediate application and more fully meet the needs of the end user. In fact, many of our customers interact directly with us to define, specify, and finally trial our products to meet their individual needs.
FiberControl world headquarters are located in Holmdel, NJ, though the company maintains sales and distributor offices around the world. FiberControl was founded in 1995 with its main office located in Monmouth County, New Jersey the heart of the East Coast's fiber optic industry enabling FiberControl to form strategic alliances with its neighbors.
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.
We previously offered a range of microscopes from a German inventor. We are now no longer offering these microscopes as the inventor, who is now 80 years old, has told us he can no longer supply them to us.
He specifically requested us to remove his name and existing products from our website, which we have done to respect his privacy. We wish to thank him for all he has done in the past including his development work on the series of microscopes we have been offering in the past.
Effective August 2014, Grayfield Optical is now working with the inventor's engineering team, who have been working with the same microscope technology for decades, are considerably younger and fully up-to-date with the latest microscope technologies including the latest digital measurment systems. Our nano-positioning system was developed by this team, for example.
We are now preparing to release an entirely new series of microscopes, under the SeeNano name, which enables us to provide you with microscopes that have all the capabilities of the previous series, while adding fluorescence capabilities and realistic pricing. Development work is progressing well and we have started to get into the costing phase so that we are able to price these new microscopes.
Technology:
Depth of Field / Focus
Resolution
Fluorescence Tagging
FAQ
Richardson Test Slide
German Test Slide
PTB (SeeNano Lab)
Diatom
Comparison:
Light Microscope
Fluorescence
Darkfield
Phase Contrast
Differential Interference
Confocal Microscope
SEM
Products:
SeeNano Pro & SeeNanoLab
SeeNano in Comparison
Nano Positioning System
Light is what nestles deeply into the molecules that make up matter, and makes it possible for matter to be what it is. Although its roots extend deeply into the origins of the world we live in, there's still much that we don't know about light. The knowledge that we gain in our quest for understanding will undoubtedly reveal, little by little, the "landscape" of our world in the most quintessential meaning of the word. In our pursuit of light, we at Hamamatsu Photonics are building a foothold for exploring what is still unknown to mankind, and for creating new industries for the future.
In our Industrial Development Laboratory, built in 2008, we carry out research in such areas as power generation and material modification using light energy.
Products:
Optical Sensors
Light Sources
Optical Components
Cameras
Photometry Systems
Measurement/Analysis Systems
Recent Announcements:
Hamamatsu's joint research successfully forms a multi-layered polycrystalline ceramic surface through laser shock compression technology.
Hamamatsu, Japan July 17, 2015 The Graduate School for the Creation of New Photonics Industries, an academic institution affiliated with Hamamatsu Photonics K.K., has announced the discovery of a new technique to reform the surface of ceramic materials with laser-shock compression technology, a result which may contribute to the development of new materials. By irradiating the surface of zirconia (yttria-stabilized zirconia) with a high-intensity short-pulse laser, a multi-layered polycrystalline structure was formed on the material with a penetration depth of 130 microns.
Highest precision is fascinating! Optical components made of glass, quartz glass or calcium fluoride ? they are an essential key component for facilities, instruments and machinery and thus ensure best possible results in various applications. Since 1922, Hellma has developed one-of-a-kind products and solutions, and is first class all over the world for well-known manufacturer in industry, technology and research.
Hellma is the world's leading manufacturer of cells and optical components for modern analysis. For 91 years, since Hellma GmbH was founded in 1922 in Müllheim, southern Germany, our commitment has been to provide the best possible quality in order to guarantee the most precise analytical results. Welcome to the fine art of precision!
Worldwide distribution, customer support and availability of specialists for technical consulting needs, are guaranteed by 13 subsidiaries spread around the world and by numerous exclusive representatives and companies dealing in laboratory supplies.
Within the USA and Mexico, Hellma USA offers the complete Hellma Analytics and Hellma Optics product lines. In addition, we offer high end and related products from top companies including Heraeus Noblelight, Carl Zeiss MicroImaging and tec5USA. Everything From Light to Byte!
Hellma Optics is Hellma's subsidiary specializing in the manufacturing of cylindrical, toric and plano-optical components. Furthermore, its range of products includes special optics, optical filter glass, polarization optics (retarder plates) and custom made products, including those from various crystals, as well as cells manufactured from various types of optical glass, quartz glass and special materials. Hence, we can manufacture your optical components to superior quality for exacting applications in laser engineering and any other sub-area of photonics and the optical industry. New High-Tech Methods are continuously being developed. In the DUV for example we have developed innovative methods both to process CaF2 and to produce extremely precise optics from monocrystalline optical silicon.
INFICON is a leading provider of innovative instrumentation, critical sensor technologies, and advanced process control software that enhance productivity and quality in sophisticated industrial vacuum processes. These analysis, measurement and control products are essential for gas leak detection in air conditioning/refrigeration and automotive manufacturing. They are vital to equipment manufacturers and end-users in the complex fabrication of semiconductors and thin film coatings for optics, flat panel displays, solar cells and industrial vacuum coating applications. Other users of our vacuum-based processes include the life sciences, research, aerospace, packaging, heat treatment, laser cutting and many other industrial processes. We also leverage our expertise in vacuum technology to provide unique, toxic chemical analysis products for emergency response, security, and environmental health and safety.
INFICON is headquartered in Switzerland and has world-class manufacturing facilities in Europe, the United States and China, as well as subsidiaries in China, Finland, France, Germany, India, Italy, Japan, Korea, Liechtenstein, Singapore, Sweden, Switzerland, Taiwan, the United Kingdom and the United States.
InPhotonics is the market leader in fiber optic sampling probes and accessories for Raman spectroscopy. Several RamanProbeTM models are available for analytical, quality control, and process monitoring applications. We also specialize in rugged fiber optic Raman spectrometers for laboratory and field analysis.
InPhotonics is located in Norwood, Massachusetts, along the technology beltway surrounding the city of Boston. Our company emerged from the Spectroscopy Division of EIC Laboratories, a 30 year old R&D organization serving government and industry. Incorporated in the fall of 1998, InPhotonics began its mission with the RS2000 echelle spectrometer and RamanProbe sampling device that were originally developed for military and environmental applications. Our product line has grown to include several probe variations that address research, analytical and process control applications. We now count all major Raman manufacturers as resellers and continue to expand our worldwide sales efforts.
In 1999, the InPhotote spectrometer was introduced for on-site chemical identification. Based upon our research experience, the instrument capabilities were defined to provide accurate discrimination of crystalline solids as well as liquids and mixtures. High quality optical components are packaged into a portable case to provide excellent sensitivity, sufficient spectral range, and desirable resolution at an affordable price.