Physicists dream of having a rich supply of ultracold molecules with specific electronic properties. A dense gas of such particles would have exciting applications in tests of fundamental physics, quantum-controlled chemistry and the study of many-body systems.
Researchers have demonstrated large-scale fabrication of a new type of transparent conductive electrode film based on nanopatterned silver.
A University of Central Florida team has designed a nanostructured optical sensor that for the first time can efficiently detect molecular chirality – a property of molecular spatial twist that defines its biochemical properties.
What is light? It seems like a simple question at first sight, but it has kept on captivating the hearts of great scientists for centuries.
FLIR thermal sensors can be used for the detection and classification of pedestrians in ADAS and self-driving cars, making them safer and less costly.
Zygo’s precision optics solutions such as high-quality mirrors, space-based lens assemblies, and other reconnaissance systems, have enabled high-performance solutions for defense and aerospace application.
In regards to the research market, Zygo focuses on solving their own internal problems through R&D instead of relying on outside research organizations. With their expertise and connections with the research community, the company is able to understand research needs and ensure that products will work in experiments and instrumentation the first time.
The semiconductor market is focused on creating billions of products for consumption. Semiconductor companies turn to Zygo Corporation for their robust processes and constant solutions.
High-speed thermal imaging is vital to many research programs, as is having a robust method for recording and sharing the data. In this video, FLIR introduces the Portable High-Speed Data Recorder (pHSDR) and demonstrates how it can resolve some of the traditional performance limitations that arise from recording straight to a computer hard drive.
BaySpec offers the GoldenEye™ camera as the only snapshot hyperspectral imager covering VIS/NIR/SWIR (400 – 1700 nm) wavelengths. With FT-PI proprietary technology, this high sensitivity imager is ideal for low light level applications. 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 detecting explosives with mm-Wave radars, advanced optical materials for transparent armor, simulating complicated radar cross sections, machine vision for military imaging, and more.
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Image Science was formed in 1991 and specialises in the design and manufacture lens testing systems for both Research & Development and production applications. We concentrate on providing the best combination of accuracy, speed of measurement, and ease of use.
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.
Mad City Labs, Inc. is the leading US manufacturer of precision piezo based nanopositioning stages and nano-instrumenation. We manufacture high performance motion control instrumentation including our innovative closed loop nanopositioning systems, high stability microscopy platforms, low cost probe microscopy and metrology solutions. Our instruments are suitable for super resolution microscopy, metrology, imaging, photonics, interferometry and astronomy.
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.
LASER COMPONENTS is a family-owned business that was founded by Mr. Günther Paul in Germany in 1982. With over 130 employees worldwide, LASER COMPONENTS has specialized in the development, production, and distribution of components and services in the laser and optoelectronics industry.
With Over 80 years of combined experience, the divisions of Abrisa Technologies (Abrisa Industrial Glass, Sycamore Glass Components, and ZC&R Coatings for Optics) have the engineering, manufacturing and customer service teams needed to service your optics requirements.
Measuring the thermal signatures of rockets exploding or aircraft in flight occur at high speeds. Understanding the factors that go into making those measurements will help users determine if a camera is suited for the job.
Hyperspectral imaging is used to help capture the finest possible differences in materials. Temporal multiplexing is an alternative approach that uses a fast LED technology. Instead of illuminating broadband an splitting the spectrum of light in the camera, a broadband sensitive chip is used, and the illumination spectrum is varied over time via fast triggering.
When surgeons need the best view possible, they rely on almost invisible support systems. Among them, highly flexible and environmentally friendly PURAVIS® glass optical fibers, recently awarded with the German Innovation Award.
Thermal cameras are used throughout many stages of R&D and quality assurance. Electronics inspection is one of the most common applications for thermal imaging, which typically involves finding hot spots on printed circuit board assemblies (PCBAs) and ensuring that various components are working within their design limits.
FLIR Systems, Inc. today announced the availability of its open-source machine learning thermal dataset for Advanced Driver Assistance Systems (ADAS) and self-driving vehicle researchers, developers, and auto manufacturers, featuring a compilation of more than 10,000 annotated thermal images of day and nighttime scenarios.
For better implementation in existing systems, LASER COMPONENTS now offers its innovative LD21xx series of Differential Pyros as a Diff|2 version with a classic 3-pin housing. Like with the 4-pin models, the charge carriers on the top and bottom of the chip are amplified separately, which leads to a 50% improvement of the signal-to-noise ratio. The difference of the new Diff|2 (LD2120) detectors is that both signals are fed into a differential amplifier within the housing. Thus, the outward design of the component matches the familiar appearance with single supply, ground and a single output pin.
Look into one's eye and you might be able to see their soul. Or at least you can see signs of a stroke or diabetes. By looking at the blood vessels in the eyes, doctors can tell a lot about a person's health.
Researchers more than doubled the ability of a material to convert heat into electricity, which could help reduce the amount of wasted heat, and thus wasted fossil fuel, in daily activities and industries.
LMU’s Ralf Jungmann develops modes of microscopy that can resolve cellular structures with dimensions on the order of nanometers. He has now succeeded in imaging actin networks in cells in greater detail than before.
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