All-optical routers managing Internet traffic would be much more energy efficient than what we have today, but their development has been hindered by the lack of optical memory devices. Researchers have developed this kind of device, which could pave the way to a faster and more energy-efficient Internet.
Bits of data traveling through the Web have to bounce back and forth between optical signal lines for efficient transmission and electrical signal lines for processing.
The devices, described in the journal Researchers at NTT, a Japanese telecommunications company working out of Kanagawa, and others have been working on such devices for years, but their previous efforts used too much energy and couldn’t retain data long enough to be viable. The new memory cells use just 30 nanowatts of power, which is 300 times better than previous designs.
They can also retain data four times as long, which is long enough to support processing, states lead author Masaya Notomi, director of the Photonic Nanostructure Research Group at NTT.
Notomi says that they’ll use this memory in network routers or servers. At high data rates, optical signals are much more efficient than electrical ones. Later, they hope to develop random-access memory for high-speed computers.
Researchers used a thin slab of indium phosphide, which had a strip of indium gallium arsenide phosphide buried in the center. The strip, about 300 nanometers long, serves as the memory cell, while the indium phosphide is etched with
A laser is used to read or write information to the optical memory device.
Reference: “Ultralow-power all-optical RAM based on nanocavities” by Kengo Nozaki, Akihiko Shinya, Shinji Matsuo, Yasumasa Suzaki, Toru Segawa, Tomonari Sato, Yoshihiro Kawaguchi, Ryo Takahashi and Masaya Notomi, 26 February 2012, Nature Photonics.
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