The laser is the perfect light source: when being provided with energy, it generates light of a specific, well-defined colour. It is also possible, however, to create the exact opposite – an object that perfectly absorbs light of a particular colour and dissipates the energy almost completely.
The mesosphere, at heights between 85 and 100 kilometers above the Earth's surface, contains a layer of atomic sodium. Astronomers use laser beams to create artificial stars, or laser guide stars (LGS), in this layer for improving the quality of astronomical observations.
The Machine Vision RV-Series from Canon is made up of a group of systems that are specifically designed to work as the “eyes” of robotic arm systems. Benefits for using these machine vision systems include one-time measurements of 3D pose, high-speed recognition, improved productivity, and reduced production costs. This series is ideal for use in industrial production applications such as automobile parts manufacturing, car manufacturing, and electronics manufacturing.
Lisa Gerbracht at FLIR gives a brief introduction to showcased products, information on available imaging technologies, and an overview of FLIR’s specialized divisions.
Sukegawa Takashi from Canon USA, Inc. Optoelectronic Components introduces the new Canon Immersion Grating. With a size that is 1/27th of typical spectroscopy devices and the ability to cover infrared frequencies from 1 to 20 micrometers, this immersion grating is ideal for astronomy, satellites, and large ground-based telescope applications.
Dr. Scott Metzler from PCO introduces the pco.edge 4.2 bi back illuminated camera sensor with high resolution and a 6.5 x 6.5 μm² pixel size for high-quality images with quantum efficiency up to 95%. This next-generation camera offers an extremely versatile solution for all of your microscopy needs.
One of the greatest advantages of thermal imaging cameras in military research and range applications is their ability to image and record thermal data without the need to touch the target under testing. This eBook offers a comprehensive understanding of research and science thermography with topics including how IR cameras work, finding resolution in a distant image, and challenges of infrared radiance measurement. Read more.
Electronic Military & Defense was developed as a resource for engineers, program managers, project managers, and other professionals involved in the design and development of electronic and electro-optic systems for a wide range of defense and aerospace applications. Check out the digital edition of our latest issue for exclusive editorial on open architecture and standards applied to defense applications, overlooked EMC vulnerabilities, microfabrication, display technologies, and more.
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HOYA CORPORATION USA Optics Division is a leading supplier of advanced optical materials and components for scientific, technology and industrial companies throughout the US.
Supplier of precision optics including extreme precision aspheres and freeform, meter-class flats and windows in common and exotic materials. Full electro-mechanical-optical design/prototype and manufacturing capabilities for medical, defense, military, ISR, semiconductor and industrial technology research.
SCHOTT Electronic Packaging, a business unit within SCHOTT, is a leading developer and manufacturer of hermetic housings and other components for the reliable, long-term protection of sensitive electronics. Our core technologies are glass-to-metal and ceramic-to metal sealing, thermal sensing components as well as a variety of cutting-edge specialty glass competences. In the medical field, SCHOTT EP manufactures hermetic, customizable, and fully autoclavable LEDs, connectors, and component housings for medical devices. SCHOTT components meet the challenging sterilization requirements of medical devices and have been tested to withstand over 3,500 autoclaving cycles in humid heat at a temperature of 275 degrees Fahrenheit.
Ophir Photonics, a Newport Corporation, began making laser power meters, energy meters, and beam profilers in 1979, and we’ve never looked back. We have headquarters in the United States, Israel, Japan, and Germany, as well as distributors in over 50 countries worldwide.
Make something big with something small with FLIR, the world’s highest volume infrared camera and core supplier. Our proven components like the Lepton®, Boson®, and the Neutrino™ cores, FLIR’s common software architecture makes for ease of integration across an array of applications. Integrating FLIR’s cameras, cores and components based on your size, weight, power, and performance requirements is easy and may be the last little piece you need for your next big idea.
Our company began with an ingenious idea: combine high-volume, low-cost commercial glass manufacturing with the technical precision of optics and thin film coating. A quarter-century later, you can rely on us with confidence - because we put all those years of experience into every component we create for you.
Engineers and designers working on LiDAR applications should consider critical filter issues early on.
Vertical Cavity Surface Emitting Lasers (VCSELs) are a type of semiconductor laser diode. Unlike edge emitting laser diodes, VCSELs emit upwards and thus can be easily packaged as emitter arrays containing hundreds of emitters on a single chip. Often VCSELs are coupled with passive optics or scanning optics to generate very wide beams. Additionally, VCSELs are often used in pulsed mode. These factors make VCSEL test and measurement a challenging task. This article discusses VCSEL measurement solutions and how Ophir equipment can be used to get reliable power and beam profile data on VCSELs.
Subsea robots, lasers, and artificial intelligence have been combined into one dynamic solution that will change the methods of working underwater. The SeaVision® subsea 3D laser imaging system is used to perform high-resolution RGB laser line scanning.
ZYGO's Compass ™ micro lens metrology system helps manufacturers verify lens quality and refine their manufacturing processes.
Quebec-based infrared camera manufacturer TELOPS adds another string to its bow with a new line of active thermography solutions. Combining its powerful – and astoundingly fast – IR cameras with flash or halogen lamps and a user-friendly post-processing software, Telops now offers complete non-contact, non-destructive testing systems to industrials seeking to ensure the quality and homogeneity of their materials.
DuPont Electronics & Imaging’s Photovoltaic Solutions business announced it has entered into a collaboration agreement with the Fraunhofer Institute for Solar Energy Systems ISE, a leading institute for applied scientific and engineering research and development in solar energy, to optimize accelerated testing protocols for crystalline silicon solar panels.
A localization phenomenon boosts the accuracy of solving quantum many-body problems with quantum computers which are otherwise challenging for conventional computers. This brings such digital quantum simulation within reach on quantum devices available today.
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