Nanotechnology Now – Press Release: Electro-optical device provides solution to faster computing memories and processors: First-of-a-kind electro-optical device provides solution to faster and more energy efficient computing memories and processors

Home > Press > Electro-optical device provides solution to faster computing memories and processors: First-of-a-kind electro-optical device provides solution to faster and more energy efficient computing memories and processors

Abstract:
In collaboration with researchers at the universities of Münster and Exeter, scientists have created a first-of-a-kind electro-optical device which bridges the fields of optical and electronic computing. This provides an elegant solution to achieving faster and more energy efficient memories and processors.

Electro-optical device provides solution to faster computing memories and processors: First-of-a-kind electro-optical device provides solution to faster and more energy efficient computing memories and processors

Oxford, UK | Posted on December 2nd, 2019

Computing at the speed of light has been an enticing but elusive prospect, but with this development it’s now in tangible proximity. Using light to encode as well as transfer information enables these processes to occur at the ultimate speed limit – that of light. While as of recently, using light for certain processes has been experimentally demonstrated, a compact device to interface with the electronic architecture of traditional computers has been lacking. The incompatibility of electrical and light-based computing fundamentally stems from the different interaction volumes that electrons and photons operate in. Electrical chips need to be small to operate efficiently, whereas optical chips need to be large, as the wavelength of light is larger than that of electrons.

To overcome this challenging problem the scientists came up with a solution to confine light into nanoscopic dimensions, as detailed in their paper Plasmonic nanogap enhanced phase change devices with dual electrical-optical functionality published in Science Advances, 29 November 2019. They created a design which allowed them to compress light into a nano-sized volume through what is known as surface plasmon polariton. The dramatic size reduction in conjunction with the significantly increased energy density is what has allowed them to bridge the apparent incompatibility of photons and electrons for data storage and computation. More specifically, it was shown that by sending either electrical or optical signals, the state of a photo- and electro-sensitive material was transformed between two different states of molecular order. Further, the state of this phase-transforming material was read out by either light or electronics thereby making the device the first electro-optical nanoscale memory cell with non-volatile characteristics.

“This is a very promising path forward in computation and especially in fields where high processing efficiency is needed,” states Nikolaos Farmakidis, graduate student and co-first author.

Co-author Nathan Youngblood continues: “This naturally includes artificial intelligence applications where in many occasions the needs for high-performance, low-power computing far exceeds our current capabilities. It is believed that interfacing light-based photonic computing with its electrical counterpart is the key to the next chapter in CMOS technologies.”

Paper published 29 November 2019: Plasmonic nanogap enhanced phase-change devices with dual electrical-optical functionality
Nikolaos Farmakidis1*, Nathan Youngblood1*, Xuan Li1, James Tan1, Jacob L. Swett1, Zengguang Cheng1, C. David Wright2, Wolfram H. P. Pernice3, Harish Bhaskaran1

1 Department of Materials, University of Oxford, Parks Road, Oxford OX1 3PH, UK. 2 Department of Engineering, University of Exeter, Exeter EX4 QF, UK. 3 Institute of Physics, University of Muenster, Heisenbergstr, 11, 48149 Muenster, Germany. *These authors contributed equally to this work.

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The work was carried out as part of the H2020 project Fun-COMP (#780848), for further details:

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