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UCSB researchers develop hybrid silicon evanescent laser
November 16, 2005Santa Barbara, Calif. - November 15, 2005 - In what promises to be an important advance, researchers at the University of California, Santa Barbara have developed a novel laser by bonding optical gain layers directly to a silicon laser cavity. This hybrid laser offers an alternative to silicon Raman lasers and is an order of magnitude shorter. The laser is optically pumped, operates in continuous wave mode, and only needs 30 mW of input pump power.
This evanescent silicon laser demonstration is the first step toward an electrically pumped hybrid silicon laser. Increasingly, the performance of microelectronic systems will depend more on the connections between chips and devices than on the characteristics of the chips and devices themselves. As semiconductor systems get smaller, interconnect capacity and power dissipation will limit their performance. Optical interconnects could alleviate these limitations but the challenge has been to create a semiconductor laser that can be fully integrated with silicon microelectronics.
The laser developed by John Bowers and his students, Alex Fang and Hyundai Park, uses InAlGaAs quantum wells to provide optical amplification. "The ability to combine the best of both worlds (i.e. III-V gain material with silicon photonics) could lead to a new way of enabling highly integrated laser sources with intelligent opto-electronic devices for future optical communications at low cost," said John Bowers, professor of electrical and computer engineering at UCSB.
University of California-Santa Barbara
University of California-Santa Barbara
Breakthrough in computer chip design eliminates wires in data transmission
Research slated to appear in the October 2 edition of the Optical Society of America's (OSA) Optics Express will unveil that researchers have created a new laser-silicon hybrid computer chip that can produce laser beams that will make it possible to use laser light rather than wires to send data between chips, removing the most significant bottleneck in computer design.
UCLA Engineering Announces Breakthrough in Silicon Photonics Devices
Building on a series of recent breakthroughs in silicon photonics, researchers at the UCLA Henry Samueli School of Engineering and Applied Science have developed a novel approach to silicon devices that combines light amplification with a photovoltaic — or solar panel — effect.
Nature press release for 23 November issue
[408479] LIFELINES: DISEASE PRIONS FOUND AND BOUND (pp479–483) The finding that a common blood protein sticks to rogue prions but ignores the normal, harmless variety could one day form the basis of a test for prion diseases such as BSE and CJD. As well as offering insight into how prions cause disease, this selective binding activity might be harnessed to sweep blood products free of infection. Adriano Aguzzi of the University Hospital of Zurich and colleagues use the protein ‘plasminogen’ harvested from human and mouse blood serum. They coat tiny magnetic beads with the sticky protein and mix them with samples of brain tissue from mice infe
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