CyberOptics® Corporation (NASDAQ: CYBE), a leading global developer and manufacturer of high-precision 3D sensing technology solutions, will exhibit at SEMICON Korea from February 5-7th, 2020 at the COEX in Seoul, booth #C236. During the show, the company will unveil and demonstrate its new WaferSense® Auto Resistance Sensor™ (ARS) with CyberSpectrum™ software for semiconductor tool set-up and diagnostics.
MEMS
Tuning Optical Resonators Gives Researchers Control Over Transparency
Researchers at the McKelvey School of Engineering at Washington University in St. Louis have devised a fully contained optical resonator system that can be used to turn transparency on and off, allowing for a measure of control that has implications across a wide variety of applications.
SmartSens Wins Semiconductor Solution of the Year Designation in 2020 IoT Breakthrough Awards Program
SmartSens, the leading supplier of high-performance CMOS imaging systems, today announced that its SmartSens SC132GS product has been selected as the winner of the “IoT Semiconductor Solution of the Year” award in the 4th annual IoT Breakthrough Awards program from IoT Breakthrough, a leading market intelligence organization that recognizes the top companies, technologies and products in the global Internet-of-Things (IoT) market today. As 5G and AI-enabled applications accelerate toward industry-wide ‘intelligent’ system upgrades, SmartSens’ global shutter image sensor SC132GS is built specifically to power these applications.
Imec Demonstrates Scalable III-V and III-N Devices on Si Targeting beyond 5G RF Front-End Modules
Imec, a world-leading research and innovation hub in nanoelectronics and digital technologies, presents the first functional GaAs-based heterojunction bipolar transistor (HBT) devices on 300mm Si, and CMOS-compatible GaN-based devices on 200mm Si for mm-wave applications.
Growing Strained Crystals Could Improve Performance of Perovskite Electronics
A new method could enable researchers to fabricate more efficient and longer lasting perovskite solar cells, LEDs and photodetectors. By growing thin perovskite films on substrates with different compositions, engineers at the University of California San Diego have invented a way of fabricating perovskite single crystals with precisely deformed, or strained, structures. Engineering a small amount of strain in perovskites is of great interest because it provides a way to make significant changes in the material’s properties, such as how it conducts electricity, absorbs and transmits light, or how stable it is.
MolecuLED Organic Color Conversion Technology Set to Revolutionize Large Screen TV and Horticulture Industries
StoreDot, a pioneer of ultra-fast charging (UFC) technology for electric vehicles, today announces the formation of a new, independent company to drive development of its unique MolecuLED wavelength conversion technology. The new business, named MolecuLED, will focus on the continued development of the technology in the TV and large display screen market, while exploring opportunities for transformative applications in industries such as horticulture and healthcare.
Bose and HERE Fuel AR Experience Innovation By Combining Location and Audio Technologies
HERE Technologies, a global leader in mapping and location platform services, today announced a collaboration with Bose Corporation to jointly enable their respective developer communities to deploy augmented reality (AR) location applications and services. This collaboration gives HERE developers access to the Bose AR platform and spatial-audio capabilities, and extends the HERE platform, positioning and mobile SDK location technologies to developers building audio AR applications and experiences.
Researchers Create Nanoscale Sensors to Better See How High Pressure Affects Materials
Researchers have developed new nanoscale technology to image and measure more of the stresses and strains on materials under high pressures. As the researchers reported in the journal Science, that matters because, “Pressure alters the physical, chemical and electronic properties of matter.” Understanding those changes could lead to new materials or new phases of matter for use in all kinds of technologies and applications, said Valery Levitas, a paper co-author and Anson Marston Distinguished Professor in Engineering at Iowa State University, the Vance Coffman Faculty Chair and professor in aerospace engineering.
MIPT Physicists Find Ways to Overcome Signal Loss in Magnonic Circuits
Researchers from the Moscow Institute of Physics and Technology, Kotelnikov Institute of Radio Engineering and Electronics, and N.G. Chernyshevsky Saratov State University have demonstrated that the coupling elements in magnonic logic circuits are so crucial that a poorly selected waveguide can lead to signal loss. The physicists developed a parametric model for predicting the waveguide configuration that avoids signal loss, built a prototype waveguide, and tested the model in an experiment. Their paper was published in the Journal of Applied Physics.
No Storm in a Teacup — It’s a Cyclone on a Silicon Chip
University of Queensland researchers have combined quantum liquids and silicon-chip technology to study turbulence for the first time, opening the door to new navigation technologies and improved understanding of the turbulent dynamics of cyclones and other extreme weather. Professor Warwick Bowen, from UQ’s Precision Sensing Initiative and the Australian Research Council Centre of Excellence for Engineered Quantum Systems said the finding was “a significant advance” and provided a new way to study turbulence.
