Scientists from the Niels Bohr Institute have developed a novel laser cooling method for semiconductor membranes, paving the way to develop efficient cooling systems for components of future ultrasensitive sensors and quantum computers.
National Wire & Cable, a designer and manufacturer of commercial wire and cable products, has introduced X-Ray Fluorescence (XRF) technology to assure that the company’s products follow all applicable Green manufacturing and International lead-free standards.
QD Vision, a company developing optical products for solid state lighting and displays using nanotechnology, has been felicitated with the 2011 SEMI Award for North America for its efforts in the integration and production processes towards the commercialization of quantum dot technology.
Nippon Avionics (Avio) is a subsidiary of NEC. A novel series of YAG Precision Laser Welders were introduced to the market, by the company on January 17. Welding of metal to metal without contact is achieved through this new LW-Y Series of YAG laser welders.
Researchers at the University of Twente’s MESA+ Institute for Nanotechnology have created an optical amplifier doped with a rare earth ion.
Durdu Guney from the Michigan Technological University has developed a model to fabricate superlens or perfect lens that is capable of utilizing visible light to view objects measuring 100 nm.
ATC is a pioneer in producing millimeter-wave, microwave, and RF passive components. An ultra-broadband capacitor (UBC) has been developed for optical high-speed data communications signal integrity markets by ATC.
A Bloomberg News Service story dated 13 December 2011 has described the vast power costs required for cooling data centers across the world. According to Lightwave Logic, recent developments in its organic nonlinear optical material technology are capable of drastically decreasing the power usage of computing, datacom and telecom operations.
Using plasmonic nanoantenna arrays, Purdue University researchers have demonstrated new ways of accurately manipulating the propagation of light by modifying its phase, opening the door for new class of optical advancements such as powerful computers, telecommunications and microscopes.
A research team led by Peidong Yang, a chemist at the Materials Sciences Division of the Lawrence Berkeley National Laboratory (Berkeley Lab), has developed a nanowire endoscope by integrating a waveguide of tin oxide nanowire with an optical fiber’s tapered end, paving the way for capturing optical images of the inside of an individual live cell at high resolution or accurately delivering drugs, proteins, genes or other cargo without causing damage to the cell.
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