"Origin Wukong", China's third-generation autonomous superconducting quantum computer. Photo: Courtesy of Origin Quantum The computing power of China's independently developed third-generation ...

MIT researchers developed a superconducting quantum processor comprised of 16 qubits which they can use to generate a synthetic electromagnetic field, enabling them to explore the properties of ...

Abstract: A magnetic balanced Tunneling Magneto Resistance (TMR) sensor for high-current measurement was developed to meet the measurement requirements of Experimental Advanced Superconducting Tokamak ...

A future quantum internet will enable sharing quantum information (qubits) over a new type of network. Such qubits can not only take the values 0 or 1, but also superpositions of those (0 and 1 at ...

Researchers created a synthetic magnetic field using a superconducting quantum processor, which could enable them to precisely study complex phenomena in materials, like phase changes. This could ...

To fill one of these gaps, MIT researchers developed a technique to generate synthetic electromagnetic fields on superconducting quantum processors. The team has demonstrated the technique on a ...

Arlington, Virginia, October 28, 2024 – A new report from the Quantum Economic Development Consortium (QED-C) found that using quantum sensors could improve the accuracy and reliability of position, ...

Google, a major figure in quantum computer development using superconducting technology to produce quantum bits (qubits), has invested a multi-million dollar sum into a firm developing an entirely ...

Quantum squeezing is a breakthrough concept that refines our ability to measure with high precision by adjusting uncertainty within quantum systems. By “squeezing” one part of a measurement to reduce ...

Abstract: This paper proposes a quantum algorithm for Dynamic Metasurface Antennas (DMA) beamforming to suppress interference for an amplify-and-forward relay system in multi-base station environments ...