A quantum computer harnessed the power of light particles — or photons — to perform a calculation virtually impossible for conventional computers, according to a recent study published in the journal Science.
Hailing from China, the intrepid team behind the super-quant computer — called Jiuzhang — is the second to achieve quantum supremacy, after Google's quantum computer scored the glory, in 2019.
Quantum supremacy via boson sampling
Named Jiuzhang after an ancient Chinese mathematical text, the "photonic quantum computer" is able to perform a calculation in 200 seconds that would take more than half a billion years on the world's fastest classical computer, Japan's Fugaku supercomputer, the researchers say.
Unlike Google's quantum computer (called Sycamore), Jiuzhang isn't made from superconducting materials. Instead, it functions via a complex array of optical devices — including light sources, photon detectors, using 300 beam splitters and 75 mirrors.
A breakthrough in quantum computing. A Chinese research team announced Friday that it has established a quantum computer prototype, reaching the first milestone on the path to full-scale quantum computing pic.twitter.com/EEhMak9tZO— China Xinhua Sci-Tech (@XHscitech) December 4, 2020
In their study, the researchers detailed how they used Gaussian boson sampling (GBS) — a classical simulation algorithm — to efficiently demonstrate quantum computational speed in solving tasks that would take classical computers an unreasonable amount of time to complete.
On a long enough timeline of trials, a perfect boson sampler would have a fidelity of 1, New Scientist reports. At a fidelity of 1, the boson sampler would match perfectly with theoretical predictions. Astounding the researchers, Jiuzhang had a near-perfect fidelity of 0.99.
"Quantum computational advantage is like a threshold," Lu Chaoyang, professor of the University of Science and Technology of China, told state-owned Chinese news agency Xinhua.
"It means that, when a new quantum computer prototype's capacity surpasses that of the strongest traditional computer in handling a particular task, it proves that it will possibly make breakthroughs in multiple other areas," added Lu.
A 'champion in one single area'
The milestone comes on the heels of 20 years' research, which presented several challenges, like finding a high-quality photon source.
"It is easy for us to have one sip of water each time, but it is difficult to drink just a water molecule each time," quantum physicist Pan Jianwei said. "A high-quality photon source needs to 'release' just one photon each time, and each photon needs to be exactly the same, which is quite a challenge."
At the moment, the researchers said Jiuzhang is only a "champion in one single area."
International quantum supremacy is a good sign
Quantum supremacy is measured via very specific calculations — designed to exploit the vulnerabilities of classical computers — and typically exceed the needs of real-world applications. In other words, we likely still have far to go before we see a quantum computing revolution.
However, the researchers say their new quantum computer still has the potential for real-world applications in cutting-edge fields like machine learning, quantum chemistry, and graph theory.
In any case, achieving quantum supremacy on a different type of device than Google's Sycamore highlights the increasing speed of progress in quantum computing.