Physicists Use Vibrations To Prevent Information Loss in Quantum Computing
When quantum systems, such as those used in quantum computers, operate in the real world, they can lose information to mechanical vibrations. New research led…
When quantum systems, such as those used in quantum computers, operate in the real world, they can lose information to mechanical vibrations. New research led…
Practical quantum computing is another step closer. Researchers have introduced a novel algorithm called Automated Compression of Arbitrary Environments (ACE) designed to study the interactions…
The novel device could lead to more versatile quantum processors with clearer outputs. What good is a powerful computer if you can’t read its output?…
Quantum computer barely edged out supercomputer, showing utility of noisy quantum computers. Researchers from IBM Quantum and collaborating institutions have demonstrated that a 127-qubit quantum…
UC San Diego’s Q-MEEN-C is developing brain-like computers through mimicking neurons and synapses in quantum materials. Recent discoveries in non-local interactions represent a critical step…
Scientists at EPFL have developed a superconducting circuit optomechanical platform that demonstrates ultra-low quantum decoherence and high-fidelity quantum control. Their groundbreaking work with a “vacuum-gap…
Scientists at University College Cork have uncovered a unique superconducting state in Uranium Ditelluride, which could pave the way for more stable and efficient quantum…
A German-Chinese research team has successfully created a quantum superposition state in a semiconductor nanostructure, marking a significant breakthrough for quantum computing. Achieved through the…
Scientists at the Niels Bohr Institute, in cooperation with the University of Münster and Ruhr-Universität Bochum, developed new technology capable of processing the enormous amounts…
Quantum information (QI) processing has the potential to revolutionize technology, offering unparalleled computational power, safety, and detection sensitivity. Qubits, the fundamental units of hardware for…
Researchers from EPFL have discovered a new way to create a crystalline structure called a “density wave” in an atomic gas. This breakthrough can help…
For the very first time, researchers at ISTA entangled microwave and optical photons. Quantum computing holds the potential to tackle complex issues in fields like…
A new technique produces perovskite nanocrystals right where they’re needed, so the exceedingly delicate materials can be integrated into nanoscale devices. Researchers at MIT have…
Researchers have achieved a major milestone in quantum computing by extending the lifetime of quantum information beyond the breakeven point using Quantum Error Correction, opening…
Researchers have made a pivotal advancement in quantum computing by demonstrating how quantum neural networks can understand and predict quantum systems using a few simple…
A system using photonics-based synthetic dimensions could be used to help explain complex natural phenomena. Researchers at the University of Rochester have developed a chip-scale…
A University of Washington-led team has made a key quantum computing breakthrough by detecting fractional quantum anomalous Hall states in semiconductor material flakes, which could…
A new quantum theory developed by scientists at the City University of Hong Kong provides unprecedented insights into the ‘light-induced phase’ of matter, offering potential…