Researchers in Australia have developed silicon-wrapped quantum technology that could solve problems that have held back the development of powerful quantum computers.
The scientists, working on similar but separate projects at the University of New South Wales (UNSW), used silicon as a protectant shell around the bits, also known as qubits, in a quantum machine.
By doing that, they've made the qubits, the building blocks for quantum computers, more accurate, increased the length of time they'll hold information and possible made quantum computers easier to build.
With these two similar silicon-based breakthroughs, the researchers potentially have pushed quantum computing closer to becoming a reality.
"This has shown that quantum bits in silicon are a truly viable option for quantum computers," said Andrea Morello, a quantum physicist and associate professor at UNSW. "What's exceptional is how the perception of what we are doing has changed over the years. Ten years ago, the things we are doing now were really seen as borderline science fiction."
Morello is one of two lead researchers at UNSW who have been working on new ways to create qubits.
Andrew Dzurak, a professor of electrical engineering at the university, and Morello both make quantum bits based on a single electron confined and localized in a silicon chip. Once the electron is in that confined state, it can be used to encode quantum mechanical information.
The difference in their research projects is that they use two separate methods to confine and localize the electron.
Dzurak's method is to create a qubit with a device similar to the transistors used in laptops, smartphones and other electronics. Instead of using a transistor, Morello's team uses a natural atom of phosphorous as a qubit.
The scientists simply took parallel paths to using silicon in a quantum machine.
"They both could work," Dzurak told Computerworld, adding that both scientists are in the early stages of discussions with computer and manufacturing companies.
"We expect that the interest from the semiconductor industry will drive the progress even further," Morello said. "There's the technical aspect of what we've done, but there's the perception aspect. The vibe in our community is extremely excited."
Germano S. Iannacchione, head of the Physics Department at Worcester Polytechnic Institute, called the research in Australia an exciting advance for quantum computing.
"From an inspirational point of view, this is the kind of advance that shows us we're not just spinning our wheels," Iannacchione said. "It's a beautiful idea. This is bordering on enabling something that could actually be useful ... That's why this is so exciting. If you could scale this up, there are huge problems that we could tackle."
Quantum computing is regarded as the Holy Grail of high-performance computing. It holds a great deal promise but remains elusive.
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