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Writer's pictureKirk Hartley

Quantum Computing Said to Have Arrived in a Silicon Chip

Remember photon torpedos in Star Trek? Now there’s something new photon-wise, but even better than torpedos. The Financial Times spread the word today that UK researchers and various private industry groups from Europe and Asia unveiled yesterday a quantum computing chip structure that utilizes silicon chips and light (photons). According to the story, the processes it uses are said to be relatively compatible with existing technology and production processes. The research was unveiled this week at the British Science Festival. Here’s a highlight from the FT article:

"A quantum computing device with 100 photons could in principle solve trillions of equations at the same time."

How is this relevant to lawyers? For one, the power of research "in silico" will go up and thereby add even more speed to molecular biology relevant to tort claims. The technology – when it arrives in a few more years – also will have implications for failure to warn if everything can be simulated and predicted. Am I dreaming? Maybe a little, but consider the last statement of the FT article:

“Just as wind tunnels are not used for aircraft designs any more but [have been] replaced by computer simulations, in the future we may be able to replace most chemistry labs with quantum computers,” says Prof O’Brien."

"An international research collaboration led by scientists from the University of Bristol, UK, has developed a new approach to quantum computing that could lead to the mass-manufacture of new quantum technologies.


Scientists from the University of Bristol’s Centre for Quantum Photonics have developed a silicon chip that will pave the way to the mass-manufacture of miniature quantum chips. The announcement was made at the launch of the 2012 British Science Festival [4 to 9 September].

The leap from using glass-based circuits to silicon-based circuits is significant because fabricating quantum circuits in silicon has the major advantage of being compatible with modern microelectronics. Ultimately this technology could be integrated with conventional microelectronic circuits, and could one day allow the development of hybrid conventional / quantum microprocessors.


The Bristol-led team have developed quantum chips from silicon — the same material routinely used en masse to build the tiny electrical processors in all computers and smart phones. However, unlike conventional silicon chips that work by controlling electrical current, these circuits manipulate single particles of light (photons) to perform calculations. These circuits exploit strange quantum mechanical effects such as superposition (the ability for a particle to be in two places at once) and entanglement (strong correlations between particles that would be nonsensical in our everyday world). The technology developed uses the same manufacturing techniques as conventional microelectronics, and could be economically scaled for mass-manufacture. These new circuits are compatible with existing optical fibre infrastructure and are ready to be deployed directly with the internet.


Mark Thompson, Deputy Director of the Centre for Quantum Photonics in the University’s School of Physics, said: “Using silicon to manipulate light, we have made circuits over 1000 times smaller than current glass-based technologies. It will be possible to mass-produce this kind of chip using standard microelectronic techniques, and the much smaller size means it can be incorporated in to technology and devices that would not previously have been compatible with glass chips.(emphasis added).

“This is very much the start of a new field of quantum-engineering, where state-of-the-art micro-chip manufacturing techniques are used to develop new quantum technologies and will eventually realise quantum computers that will help us understand the most complex scientific problems.”


Published in the New Journal of Physics1 the researchers have demonstrated quantum interference and manipulation of entanglement using silicon components just 10’s micrometres in size. The photonic quantum microchips were made using the silicon-on-insulator material system, which is the standard technology routinely used to make microprocessors found for example in the Xbox, Playstation,Wii, AMD processors and many others. This means that not only can these new devices be mass-manufactured using standard microelectronics processing that already exist, but they can also be combined with standard microelectronics circuits — ultimately enabling the development of hybrid quantum / conventional microprocessors.


Along with recent demonstrations from the Bristol research group and other groups showing on-chip generation of photonics qubits2 and results from the US showing on-chip detection of single photons3, the Bristol-lead research team now believes that all the key components are in place to realise a fully functioning quantum processor — a powerful type of computer that uses quantum bits (qubits) rather than the conventional bits used in today’s computers. Quantum computers will have unprecedented computational power for tasks including search engines and the design of new materials and pharmaceuticals. This work, carried out with collaborators including Heriot-Watt University in Scotland and Delft University in the Netherlands, is an essential step towards the miniaturisations of quantum technologies.

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