Scientists at the University of Vienna have created a new hybrid structure, termed buckyball sandwich, by encapsulating a single layer of fullerene molecules between two graphene sheets. Buckyball sandwiches combine for the first time soccerball-like fullerenes, each consisting of sixty carbon atoms, and graphene, a one-atom thick layer of carbon.
Inspired by the varying colors that gleam off of beetle shells, scientists have developed color-shifting nanoparticles that can change hue even after being embedded into a material.
Using two novel techniques, researchers at the National Institute of Standards and Technology (NIST) have for the first time examined, with nanometer-scale precision, the variations in chemical composition and defects of widely used solar cells.
University of Illinois at Chicago scientists have discovered a new chemical method that enables graphene to be incorporated into a wide range of applications while maintaining its ultra-fast electronics.
The RV1100 is a 3D machine vision system designed to measure and recognize randomly assembled production line parts with complex shapes and very few distinguishing features for robotic arm systems. It offers the benefits of one-time measurements of 3D pose, high-speed recognition, improved productivity, and reduced production costs. The RV1100 is ideal for use in industrial production applications such as automobile parts manufacturing, car manufacturing, and electronics manufacturing.
Piezo nanopositioning stages offer high-resolution and scanning speed, making them useful for super-resolution microscopy and optical trapping. The P-563 PIMars XYZ-Stages are designed with a parallel-kinematics arrangement with higher precision and responsiveness compared to nested or stacked multi-axis positioners.
Telops offers a variety of high-performance scientific instruments to meet the most demanding research applications. The MS-IR Series of time-resolved, multispectral imagers are able to combine measurements obtained with various attenuation filters to achieve a composite HDR image that shows hot and cold objects at the same time.
Flexible endoscopes are used in medical procedures where the scope cannot bend. This animation from SCHOTT demonstrates the transmission of light and data through external and internal rigid fiber optic light cables in endoscopy.
Flexible endoscopes are used in medical procedures where the scope must be bent inside the body. This animation from SCHOTT demonstrates the transmission of light and data through external and internal flexible fiber optic light cables in endoscopy.
Thermally characterizing high-speed targets is a challenging task, one that is difficult to undertake with traditional forms of temperature measurement. This Q&A details how next-generation high-speed IR cameras are up to this challenge, pointing out their functions, benefits and limitations. Read more.
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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 optimizing defense technology in harsh environments, a 3D X-ray diagnostic tool for use in combat, the first international standard for tactical fiber optic cables, early warning systems for chemical warfare agents, and more.
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Telops specializes in the design and production of sophisticated opto-electronic systems for the defense, aerospace and telecommunications industries. A reliable source of accelerated innovation inoptronics, the experienced engineering team thrives on high expectations and great challenges.
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.
Opto Diode Corporation is a world supplier of reliable, high quality infrared (IR) LEDs and custom LEDs in the visible range. Since 1981, we have produced standard TO-packaging and custom housing LEDs in our U. S. facility in Southern California, maintaining the highest standards with our in-process quality control and testing systems...
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.
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.
Sierra-Olympic Technologies, Inc. ̶ experts in thermal imaging technology ̶ designs, manufactures and distributes cameras, components, and systems solutions for infrared (IR) camera users and integrators. Products include cooled, uncooled, and OEM infrared cameras, accessories, digital acquisition, and image processing systems. We provide full engineering services and support and are able to customize our systems to meet your specific requirements. We offer very high-value, cost-effective thermal imagers for R&D, OEM, commercial, and security applications, available for easy purchase directly from our web site.
Femtosecond laser electronic excitation tagging (FLEET) is an optical measurement technique that permits quantitative velocimetry of unseeded air or nitrogen using a single laser and a single camera. This paper seeks to determine the fundamental precision of the FLEET technique using high-speed complementary metal-oxide semiconductor (CMOS) cameras. A comparison of the performance of several different high-speed CMOS camera systems for acquiring FLEET velocimetry data in air and nitrogen free-jet flows is also provided.
This paper provides an overview of recent wind tunnel tests performed at the NASA Langley Research Center where the Background-Oriented Schlieren (BOS) technique was used to provide information pertaining to flow-field density disturbances. The facilities where the BOS technique was applied included the National Transonic Facility (NTF), Transonic Dynamics Tunnel (TDT), 31-Inch Mach 10 Air Tunnel, 15-Inch Mach 6 High-Temperature Air Tunnel, Rotor Test Cell at the 14×22 Subsonic Tunnel, and a 13-Inch Low-Speed Tunnel.
One of the key parameters for understanding how a laser will perform in an application is the spatial intensity distribution. In many industial laser cutting or welding applications, monitoring the beam quality is critical for successful operation. The measurement of the beam can either be made during the design stage of the laser, or it might be more sufficient for continuous real-time monitoring during the laser’s operation. This white paper addresses the general need for laser beam profile analysis, describes laser beam analysis instruments, and provides an overview of laser applications, in particular for infrared wavelengths.
Inspectahire is a company that helps customers manage the safety, profitability, and environmental impacts of their assets through remote visual inspection technologies and solutions. The FLIR’s GFx320 Optical Gas Imaging (OGI) camera is their preferred technology to use when tasked with the detection of fugitive hydrocarbon emissions.
Zygo Corporation is pleased to introduce the Verifire™ HDX laser interferometer system with ultra-high spatial resolution and advanced imaging for measuring surface form and transmitted wavefront of high-performance optical components and systems. At the core of the Verifire HDX is a new optical design, which delivers improved instrument transfer function (ITF) and ultra-high spatial resolution for superior characterization of midspatial frequency (MSF) characteristics and high-slope surface form errors, with high precision and confidence.
At LASER World of PHOTONIOCS 2017, LASER COMPONENTS will present a new generation of line laser modules for machine vision. The M18 threaded MV18 module is the latest addition to the successful MV series, while existing models like MVnano, MVpico and MVfemto have been re-engineered for better functionality and flexibility.
The world’s largest conference and trade show on laser technology and photonics is the backdrop for PI’s most anticipated high performance motion solutions for photonics, robotics, microscopy, and precision industrial automation applications. Held in Munich, Germany from June 26th to 29th, LASER World of PHOTONICS includes lectures and exhibits from the pioneers of the photonics world and anticipates more than 30,000 visitors this year.
A new type of 3D display being developed by researchers at the University of Illinois at Urbana-Champaign could pave the way for augmented reality (AR) and virtual reality (VR) headsets that do not cause headaches, nausea and eye fatigue symptoms commonly reported by users.
For Laser World of Photonics, LASER COMPONENTS will issue a new catalog providing a comprehensive overview of the company’s wide range of dielectric coatings, substrates and materials.
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