Less Noise, More Gain For Quantum Computers - Mirage News

Mirage News Mirage News Mirage News Science 17 Feb 2026 11:02 am AEDT Date Time Share Discover moreMedia portal accessNews alerts serviceNews aggregator subscription Figure 1: A long, spiral-wound waveguide with a fine-tapered, fishbone-like structure can amplify photon signals from quantum computing qubits with very low noise. © 2026 RIKEN Center for Quantum Computing The low-noise, high-gain properties needed for high-performance quantum computing can be realized in a microwave photonic circuit device called a Josephson traveling-wave parametric amplifier (JTWPA), RIKEN researchers have shown experimentally1. This advance stands to speed up development of superconducting quantum computer systems at the 100-qubit scale.Quantum computers are extraordinary feats of research and engineering, combining highly advanced quantum physics with state-of-the-art fabrication techniques designed to physically manipulate light near the limits of quantum dynamics.While the elemental quantum bits-qubits-are where the magic of quantum computing happens, they need to be 'read' in order for their computations to be useful. Unfortunately, the very act of reading the state of a qubit can introduce noise and interference that obscures the data.The readout operation needs to meet several criteria: it needs to be fast enough with very high signal-to-noise ratio to be able to measure the qubit in a single shot, while operating with just a few quanta in energy (where a quantum is the energy of one microwave photon). Ideally, it should also comb multiple frequencies so it can read multiple qubits at once using the same circuit."So far, amplifiers based on an array of Josephson junctions fulfill all of these qualities except for noise, which is what we focused on in this study," says Sandbo Chang of the RIKEN Center for Quantum Computing (RQC).Chang, Yasunobu Nakamura, also of RQC, and co-workers have resolved a long-standing noise issue with JTWPAs. This advance promises to strengthen this highly accessible scheme for qubit signal processing.Noise is inevitably added to a readout signal when it is amplified. Quantum mechanics requires any phase-preserving amplifier with high gain to add at least half a quantum of noise. The best previous noise level achieved by a Josephson traveling-wave parametric amplifier is often one photon or more, which has limited the usefulness of this technology."This is mostly because previous approaches use lossy dielectric material in their design," says Chang.By dropping the use of lossy dielectric material and instead creating a spiraled fishbone-like tapered waveguide structure (Fig. 1), the team was able to reduce the noise to 0.68 quanta, only 0.18 quanta above the quantum limit. They demonstrated this through performing simulations and creating an experimental device."Our goal was also to keep the fabrication recipe as accessible as possible," says Nakamura. "The hope is that most labs that can already fabricate superconducting qubits will already have the techniques and equipment they need to reproduce our results." /Public Release. This material from the originating organization/author(s) might be of the point-in-time nature, and edited for clarity, style and length. Mirage.News does not take institutional positions or sides, and all views, positions, and conclusions expressed herein are solely those of the author(s).View in full here. Why? Well, unlike many news organisations, we have no sponsors, no corporate or ideological interests. We don't put up a paywall – we believe in free access to information of public interest. Media ownership in Australia is one of the most concentrated in the world (Learn more). Since the trend of consolidation is and has historically been upward, fewer and fewer individuals or organizations control increasing shares of the mass media in our country. According to independent assessment, about 98% of the media sector is held by three conglomerates. This tendency is not only totally unacceptable, but also to a degree frightening). Learn more here We endeavour to provide the community with real-time access to true unfiltered news firsthand from primary sources. It is a bumpy road with all sorties of difficulties. We can only achieve this goal together. Our website is open to any citizen journalists and organizations who want to contribute, publish high-quality insights or send media releases to improve public access to impartial information. You and we have the right to know, learn, read, hear what and how we deem appropriate. Your support is greatly appreciated. All donations are kept completely private and confidential.