Science 3 min read

New Qubit System Brings us One Step Closer to Quantum Supremacy

After researchers recently proved the argument for quantum supremacy once and for all, a team of researchers may have just given the industry a significant boost.

Quantum computing may have a number of competitors for quantum supremacy, but a new discovery may upset the race. | Image By agsandrew

Quantum computing may have a number of competitors for quantum supremacy, but a new discovery may upset the race. | Image By agsandrew

Instead of increasing the number of qubits, Austrian researchers are working on increasing the complexity of qubit systems to handle more information.

Quantum supremacy remained up for theoretical debate until very recently. Just last month, a group of physicists finally conclusively proved that quantum computers are far superior to their conventional counterparts.

Many companies are racing toward building quantum computers to tackle increasingly complex computational problems.

To achieve quantum supremacy, all these companies share a similar approach based on the number of qubits.

Google’s 72-qubit quantum chip Bristlecone is currently the leader in this quantum sphere.

However, new research from an Austrian team suggests a new approach to building mainstream quantum information systems that still involves qubits, but with a catch.

Read More: Meet the Bristlecone Chip, Google’s 72-Qubit Quantum Processor

Less Qubits, More Quantum System Complexity

Physicists from the University of Vienna (Universität Wien) and the Austrian Academy of Sciences (ÖAW) have found “a new path to increase the information capacity of complex quantum systems” with the same number of qubits.

The idea behind the research group’s new approach is “simple”. Instead of increasing the number of qubits in a quantum system, they increase the complexity of the system.

This is possible thanks to the team exploiting the weirdness of quantum entanglement.

“The special thing about our experiment is that for the first time it entangles three photons beyond the conventional two-dimensional nature.”

To achieve more than two possible quantum states with their entangled photons (qubits), researchers used Melvin, an algorithm, designed by Anton Zeilinger’s team at the University of Vienna, that automatically finds new quantum experiments.

“With the help of the computer algorithm Melvin, an experimental setup to produce this type of entanglement has been uncovered. At first, this was still very complex, but at least it worked in principle. After some simplifications, physicists still faced major technological challenges. The team was able to solve these with state-of-the-art laser technology and a specially developed multi-port. ‘This multi-port is the heart of our experiment and combines the three photons so that they are entangled in three dimensions.’”

Read More: New Quantum Physics Level Unlocked: Controllable Qubits

Authors of the study, published in Nature Photonics, say their work “could be important for quantum communication networks” and “one step closer to complex quantum teleportation.”

Theoretically, the performance level of a quantum computer increases gradually as the number of its qubits increases.

The more qubits a quantum computing system has, the more information it can handle. However, this also makes it become prone to “decoherence“.

As the number of qubits increases, the stability of the system decreases. Although artificial neural networks can help with that.

What researchers are proposing here is an interesting alternative to quantum computers and quantum networks.

However, the ongoing race is all about increasing the number of qubits and ensuring their stability, and it’s tightening up.

Do you think this could disrupt the current race for quantum supremacy?

First AI Web Content Optimization Platform Just for Writers

Found this article interesting?

Let Zayan Guedim know how much you appreciate this article by clicking the heart icon and by sharing this article on social media.


Profile Image

Zayan Guedim

Trilingual poet, investigative journalist, and novelist. Zed loves tackling the big existential questions and all-things quantum.

Comments (0)
Most Recent most recent
You
share Scroll to top

Link Copied Successfully

Sign in

Sign in to access your personalized homepage, follow authors and topics you love, and clap for stories that matter to you.

Sign in with Google Sign in with Facebook

By using our site you agree to our privacy policy.