The Business Research Company's Superconducting Quantum Chip Global Market Report 2025 – Market Size, Trends, And Global Forecast 2025-2034 LONDON, GREATER LONDON, UNITED KINGDOM, May 29, 2025 / ...

D-Wave Quantum surged during early trading Tuesday, after the company announced the general availability of its Advantage2 quantum computing system, which is its most advanced system and capable of ...

A flux tuneable microwave cavity could increase the optical bandwidth of the transducer. Finally, the use of improved measurement methods could improve control of the qubits and allow for more ...

Microsoft team behind the recent breakthrough in physics and quantum computing demonstrated by the new Majorana 1 chip, engineered from an entirely new material that has the potential to scale to ...

The new quantum processing unit (QPU), called "Majorana 1," is an eight-qubit prototype chip built from the first material of its kind in the world — a topological conductor, or topoconductor ...

3D illustration of a working quantum computer with fictitious and realistic design elements combined. Japanese researchers have developed the world’s first superconducting flux qubit that ...

The newly developed superconducting flux qubit uses a ferromagnetic Josephson junction (named π-junction). The new π-junction uses a particular type of Josephson junction that creates a 180-degree (π) ...

Figure 1 Schematic diagrams of two superconducting flux qubit circuits. The conventional qubit (a) requires an external magnetic field to operate optimally, while the new flux qubit (b), using a ...

Having control over these three parameters -- single and double pair tunneling and anomalous flux -- allows for optimal design of the transmon qubit. Interestingly, in this architecture, the anomalous ...

And here, the high qubit count can also be useful ... But other things are still in flux. On the previous version of the system, connections among qubits were handled by moving individual ...

The interplay between the inductive and Josephson energy potentials of the fluxonium qubit leads to a rich dispersive-shift landscape when tuning the external flux. Here, we propose to exploit the ...