High quality products are the keystone of Delta Optical Thin Film’s success. Our quality management system ensures control and documentation of processes and products throughout the whole design and production process.
We use an ERP system to manage the entire supply chain process including customers and suppliers, order handling, forecasting, reporting and communication.
Our development team is able to make extremely precise predictions of, for example, phase retardation, and uses other dedicated techniques, helping customers make unique instruments.
Our customers and stakeholders expect us to maintain high business ethics, to fulfil our obligations and to act with complete integrity. Our environmental and CSR policy are our tools to fulfill these obligations.
LED quality assessment
Point of Care (PoC) Instruments
Teem Photonics is a privately-held company based near Grenoble, France. Spin-off from Schneider Electric founded in 1998, Teem Photonics is the leader in passively Q-switched microlasers as well as Photonics Integrated Circuits based on ion exchange technology.
The combination of passive Q-switching and microlaser technologies results in sources distinctive for sub nanosecond, high peak power pulses, generated from compact packages at high repetition rates. Wavelengths of operation are in the near infrared as well as the green and ultraviolet; applications include biophotonics, instrumentation, remote sensing, and material processing. Ion exchange integrated optic products consist of advanced passive and active waveguide circuits that are used to increase the performance and economics of packaged laser diodes.
Teem Photonics products are used in a variety of industrial and biophotonics applications. These include fluorescence, spectroscopy, gem marking, microdissection, communications, ranging, and as seeds for fiber lasers and supercontinuum generation.
Teem Photonics sells its products worldwide with offices and representatives in the Europe, Asia, the Middle East, the United States, and Canada. Teem Photonics has a wholly owned subsidiary, Teem Photonics USA, located in Massachusetts
For material processing even more than in other areas, Teem Photonics products offer picosecond class laser solutions at nanosecond economics. The narrow heat-affected-zone (HAZ) that may be generated with some materials is indeed negligible for a majority of applications. Picospark and PicoFlash series short sub-ns pulsewidth, stable, high repetition rate pulse trains are perfectly fitted to metal surface patterning and selective ablation of thin films (TCO patterning, LLO,..), or more generally high resolution micromachining processes. UV (355nm) and DUV (266nm) laser series can process virtually any type of materials and help minimizing your process quality dependence on the material itself.
Bruker Nano Analytics presents a new variety of choice in instrumentation by expanding its portfolio of high-performance analytical tools for materials characterization in electron microscopes.
With the introduction of the new XSense WD spectrometer and the new XTrace X-ray source for Micro-XRF on SEM, Bruker is the first company to offer all 5 analytical techniques, EDS, WDS, EBSD, Micro-XRF and Micro-CT, for the SEM.
Another step ahead is the new 4-in-1 software ESPRIT 2.0., which seamlessly integrates EDS, EBSD, WDS and Micro-XRF under a single user interface and allows researchers to combine data obtained by these complementary methods.
Besides this unparalleled range of analytical tools for electron microscopes (EM), Bruker also offers a variety of X-ray fluorescence micro analyzers for spatially resolved composition analysis and for trace element analysis for a multitude of applications in industry and research.
As a pioneer in instrumentation for X-ray micro- and nano-analysis, Bruker delivers to you innovative high-performance technology. With our worldwide network of service centers and application specialists we are always close to your analytical needs.
EM Analyzers: Advancing Materials Characterization in EM
Micro-XRF and TXRF: Elemental Analysis in Research and Industry
Freiberg Instruments is now one of the world’s fastest growing, young and dynamic analytical instrumentation companies with products covering a broad spectrum of applications in fields/industries like Semiconductor, Microelectronics, Photovoltaic, Dosimetry, Medical Research, Luminescence Dating, X-ray diffraction, Material Research and Electron Spin Resonance.
Established in 2005 as an university spin off from TU Bergakademie – The University of Resources, Freiberg Instruments devoted the first few years to develop and test a whole family of fast, nondestructive, electrical characterization tools under production conditions, measuring parameters like minority carrier lifetime, photoconductivity and resistivity.
MDP Microwave-Detected Photoconductivity:
The advanced method MDP is well suited for both, defect investigation by e.g. injection dependent minority carrier lifetime measurements, as well as mapping of wafers or even ingots for inline metrology. MDP has a variety of advantages in sensitivity, speed and resolution.
MD-PICTS is a modification of MDP, where temperature dependent measurements of the defect part of the transient are accomplished. This allows to do a spatial resolved defect characterization.
FISCHER is a leading specialist in solutions for coating thickness measurement, material analysis, microhardness and material testing. The company was founded in 1953 by Helmut Fischer
Over 20 per cent of the staff at Fischer in Germany is working in the Research & Development department. Highly qualified engineers, scientists and graduates specialized in physics, chemistry, electronics, technical engineering and informatics are permanently working on new products and techniques. FISCHER develops all products for world markets in Germany and cooperates with universities and research institutes.
Whether painted or electroplated, applied to magnetic or non-magnetic materials you will find the appropriate instrument for precise coating thickness measurements in our large product portfolio.
Electromagnetic methods: Pocket gauges, Handheld gauges, Benchtop units, Probes
X-ray fluorescence method
For exact material analysis, the broad assortment of Fischer X-ray fluorescence instruments (XRF) offers the optimal instrument for any application.
Trace analysis required by RoHS, testing of jewelry and gold or inline measurements in continuous production FISCHERSCOPE X-RAY instruments fulfil the requirements in the laboratory and in manufacturing.
Industry demands that surfaces and coatings are engineered to be very hard, extremely thin or visco-elastic thus requiring powerful measurement methods and systems.
Fischer provides quick, precise and effective measurements of mechanical properties (hardness, modulus, creep, etc.) of micro and nano scale coatings, components, cross-sections, treated and modified surfaces.
The measurement technology of Fischer is sought after and proven when the quality of weld seams is measured in steel constructions or the sealing is determined on anodized facades. This is also true when the coatings are tested on tanks or airplane aluminum structures for fatigue.
Ferrite content measuring instrument
Sealing quality test instrument
Conductivity measuring instrument
LaVision was founded in 1989 as a spin-off from Max Planck Institute and Laser Laboratory in Goettingen, Germany. LaVision cooperates with leading scientists, research institutions and companies around the globe. Among the major cooperation partners are the Laser Laboratory Goettingen, the University of Delft, German Aerospace Center (DLR), Technical University Darmstadt and the Karlsruhe Institute of Technology (KIT).
LaVision offers standard and dedicated customer designed Laser Imaging Systems for reactive and non-reactive flow field analysis and fluid mechanics applications, Intelligent Imaging Systems for non-destructive material testing, a range of high-performance cameras (CCDs and intensified CCDs) and smart optical sensor systems.
The LaVision team has extensive professional experience in Laser Imaging Spectroscopy and optical techniques such as Laser Induced Fluorescence (LIF), Absorption and Emission Spectroscopy, Raman, Rayleigh and Mie Scattering, Particle Image Velocimetry (PIV), Spray Analysis, Digital Image Correlation (DIC) techniques as well as ultra-fast time-resolved imaging and high-speed image recording.
LaVision – Company Mission
The primary mission of the company is to provide photonic measurement solutions to the scientific and industrial markets. LaVision is involved in an ongoing process of innovation and development of imaging detectors, smart optical sensors, spectroscopy, lasers, measurement technologies and software tools.
The company is customer focused and offers quality products that are user-friendly, reliable, and application specific. LaVision guarantees system performance, friendly and attentive customer support, competent and highly motivated employees and ultimately customer satisfaction.
Olympus provides an industry-leading portfolio of innovative test, measurement, and imaging instruments.
Leading edge testing technologies include remote visual inspection, microscopy, ultrasound, phased array, eddy current, eddy current array, X-ray fluorescence and diffraction, and optical metrology. Our products include ultrasonic flaw detectors and thickness gages, videoscopes, borescopes, microscopes, in-line and advanced nondestructive testing systems, XRF and XRD analyzers, interferometers, and a large selection of industrial scanners, probes, software programs, and instrument accessories.
Olympus instruments are used in industrial and research applications ranging from aerospace, power generation, petrochemical, manufacturing, and automotive to consumer products. Olympus instruments contribute to the quality of products and add to the safety of infrastructure and facilities.
Transducers & Probes
Bar Inspection Systems
Tube Inspection Systems
NDT Systems Instrumentation
XRF & XRD Analyzers:
Handheld XRF Analyzers
Compact & Portabe XRF Analyzers
Process XRF Analyzers
The PicoQuant group was founded in 1996 to develop robust, compact, and easy to use time-resolved instrumentation and systems. Since April 2008 sales and support in North America is handled by PicoQuant Photonics North America Inc. In January 2010, the PicoQuant group was extended by PicoQuant Innovations, which was founded to support the increasing activities in the field of teaching, customer support and event organization.
Today, PicoQuant is known as a company leading in the field of pulsed diode lasers, time-resolved data acquisition, single photon counting, and fluorescence instrumentation. In 2002, already more than 10 years ago, we developed the first commercial ultrasensitive fluorescence microscope that permits measurements on the single molecule level. Our instruments are used all over the world. They help to prepare papers in high-ranking journals as well as carrying out routine quality control and production processes of global industrial players. Starting from traditional time-resolved fluorescence detection in bioanalytics, the range of applications is continuously increasing and includes semiconductor quality control, diffuse optical tomography, quantum information processing, optical detector testing, and telecommunications. Due to our easy to use products, researchers can now focus on their problems in biology, medicine, environmental science, or chemistry without needing a large background in physics, electronics, or optics.
Our intention is to offer state-of-the-art technology which has been co-developed and tested by renowned researchers at a price affordable to scientific groups and cost sensitive industry. We have successfully teamed up with all major confocal microscopy companies to develop dedicated equipment that permits time-resolved fluorescence studies on their commercial laser scanning microscopes. Following this philosophy, we are always looking for new challenges. PicoQuant especially encourages OEM inquiries for its products, notably for applications where time-resolved techniques were considered too expensive and cumbersome in the past.
PicoQuant’s innovative and dynamic team of physicists, chemists, biologists, designers, electronic, software, and mechanical engineers work together to offer a full range of modules for optical excitation, photon counting, as well as complete and automatic instrumentation for a wide range of electrooptical measurement tasks.
The combination of more than 18 years R & D work, several thousand units sold, and cooperation with international experts for special applications provides a stable basis for new outstanding developments always driven by our customers’ needs and inspirations.
Pulsed Lasers and LEDs
Photon Counting and Timing
Prizmatix Ltd. specializes in ultra-high-power LED illumination systems for microscopy and optogenetics as well as other scientific and industrial applications. Our systems incorporate the latest technology in packages that offer maximum versatility in light delivery and light sensing. We have a full range of products, including high-power fiber-coupled LEDs and UV LEDs.
Prizmatix experts work to understand each customer’s needs and then offer cost effective off-the-shelf or customized solutions based on our standard modular products. Our high-power LED illumination systems are used as OEM components in various biomedical products employed in industrial applications, and help academic research groups make new discoveries.
Prizmatix LED solutions are ideal for:
Biomedical device development
In addition, Prizmatix has extensive experience in custom electro-optics. The company’s OptiBlocks are modular optical components that can be easily configured into prototypes or experimental setups for fiber optic and spectroscopy applications, in a fairly short development time.
Prizmatix can work with customers on product design, prototype development, and small-scale manufacturing as well as FDA and CE compliance. Our multidisciplinary team has expertise in optics, electronics, optomechanics, optical fibers, software, biocompatible materials, and medical devices.
TECHNOSPEX focuses on transforming our technical know-how and decades of practical experience in optics, microscopy and spectroscopy to produce high performing yet cost effective optical systems.
Our customers will benefit from our flexible approach towards instrument design and development to solve their needs and requirements. Our products are built around our core beliefs in providing Raman Spectroscopy systems with mapping capability that are
Research Grade Sensitivity
With that, we are proud to offer our first cost effective and yet high sensitivity uRaman module that integrates seamlessly with most major brands of upright microscopes like Nikon, Leica, Olympus and Carl Zeiss.The system is also avaliable in a complete Raman micro-spectroscopy systems, known as uRaman-Ci which consist of an uRaman module coupled with a Nikon Ci upright research grade microscope.
The uRaman-Ci offers multimodality imaging capabilty such as polarized microscopy, fluroscence mircoscopy, and dark field microscopy together with Raman Spectroscopy. Due to its low cost and small footprint, this system is ideal for customers with space and/or budget constraint without having to sacrifice on sensitivity and performance.