Raytheon Company demonstrated its third generation infrared sensor technology to the Army last month at the Network Centric Systems production facility in McKinney.
By using the gravitational magnification from six massive lensing galaxy clusters, the NASA/ESA Hubble Space Telescope has provided scientists with the largest sample of very distant galaxies seen to date. Some of the newly found magnified objects are dimmer than the faintest ones seen in the legendary Hubble Ultra Deep Field, which is usually considered the deepest image of the Universe.
Power Analog Microelectronics (PAM), a developer of innovative Class-D digital audio amplifiers and high- power LED display driver semiconductors, today announced its first high- voltage 30 watt LED Driver with integrated MOSFET based on the Bipolar-CMOS- DMOS (BCD) Technology developed at Taiwan Semiconductor Manufacturing Corporation (TSMC).
Researchers at UC San Diego are using statistical pattern recognition and image processing to help the U.S. military better detect hidden roadside explosives.
QPC Lasers, Inc., a world leader in the design and manufacture of high-brightness, high-power semiconductor chip-based lasers for the consumer electronics, industrial, defense, and medical markets, today announced the company's technical marketing team recently published a technical paper in the prestigious laser industry trade magazine Laser+Photonics.
ASML Holding NV (ASML) announces today its newest TWINSCANTM XT:1950i lithography system using a 1.35 NA lens – increasing the performance of its immersion lithography systems by 25%. The system offers improved overlay, resolution and throughput, to enable high-volume manufacturing of more powerful 38 nanometer (nm) memory and '32' nm logic semiconductors.
A newly developed nano-sized electronic device is an important step toward helping astronomers see invisible light dating from the creation of the universe. This invisible light makes up 98% of the light emitted since the "big bang," and may provide insights into the earliest stages of star and galaxy formation almost 14 billion years ago.
A breakthrough discovery at UC San Diego may help aid the semiconductor industry's quest to squeeze more information on chips to accelerate the performance of electronic devices. So far, the semiconductor industry has been successful in its consistent efforts to reduce feature size on a chip. Smaller features mean denser packing of transistors, which leads to more powerful computers, more memory, and hopefully lower costs.
MIT researchers have achieved a significant advance in nanoscale lithographic technology, used in the manufacture of computer chips and other electronic devices, to make finer patterns of lines over larger areas than have been possible with other methods.
Led by Sri Sridhar, Distinguished Professor and Chair of Physics at Northeastern University, a team of researchers from the university's Electronic Materials Research Institute has published research that has resulted in a new breakthrough in the field of nanophotonics, the study of light at the nanoscale level. Utilizing nanomanufacturing processes, the researchers were able to develop an optical microlens with a step-like surface, instead of a smooth surface, that has the capacity to operate at infrared frequencies using the novel phenomenon of negative index refraction.
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