Scoop has an Ethical Paywall
Multiple wavelength laser helps silicon chip
21 January 2010
University of Sydney Media Release
Faculty of Science, School of Physics
Multiple wavelength laser helps silicon chip
see the light
The ultra-small revolution has begun
with the invention of a new laser that will allow light to
be used on a computer chip.
Assoc. Professor David Moss, a senior researcher at The University of Sydney, leads an international team which has developed a multiple wavelength laser on a silicon chip that produces light to process and transmit information, and in doing so will speed up computing.
“The on-chip light source will be the key to enabling the simultaneous transmission of multiple data channels either on-chip or between chips in a single optical fibre, each at a different wavelength,” says Moss, adding that this technology will ultimately provide the consumer with cheaper and faster computers.
“Currently information on a chip is shuffled around using electronic signals over copper wires, or interconnects. We know that metal is prone to ‘choking’ on the bandwidth bottleneck.”
Moss, whose paper* “CMOS-Compatible Integrated Optical Hyper-Parametric Oscillator” has been recently published in Nature Photonics, says using light for simultaneous multiple information processing is an important breakthrough.
With society’s demands for even faster technology, ultrafast on-chip and chip-to-chip optical data communications are important. More efficient methods to transmit vast amounts of data around circuit boards are needed.
Though multiple wavelength sources are already known, the team has developed them on a chip that, in principle, can not only be integrated with silicon computer chips (i.e. CMOS) but can be also fabricated using the same methods.
The device, based on high index doped silica glass, is low loss and has a high degree of manufacturability and design flexibility.
This makes it an ideal integrated multiple wavelength source, not just to improve computing power, but for a wide range of applications including telecommunications, high-precision broadband sensing and spectroscopy, metrology, molecular fingerprinting, optical clocks, and even attosecond physics.
Moss is a researcher with the Institute of Photonics and Optical Science (IPOS) based within the School of Physics, The University of Sydney.
– END –
Bill Bennett: Download Weekly - How would NZ telecoms cope with another cyclone
NZ On Air: Firm Audience Favourites Lead NZ On Air Non-Fiction Funding
Insurance and Financial Services Ombudsman: Woman Gets $40k More After Disputing Insurer’s Decision
BNZ: A Quarter Of Older NZers Fear Going Online Due To Scam Concerns
University of Auckland: Scientists Develop Tool To Monitor Coastal Erosion In Fine Detail
Oji Fibre Solutions: OjiFS Proposes To Discontinue Paper Production At Kinleith Mill
