Aristotle’s Icebreaker: How Quantum Systems Defy Freezing Logic
Hotter quantum systems can cool faster than initially colder equivalents. Does hot water freeze faster than cold water? Aristotle may have been the first to…
Hotter quantum systems can cool faster than initially colder equivalents. Does hot water freeze faster than cold water? Aristotle may have been the first to…
Scientists utilized the terahertz SNOM microscope to detect flaws in quantum computing circuits, specifically in the nano Josephson Junction. Addressing these defects is essential for…
In a paper recently published in Nature Photonics, scientists from the Center for Quantum Information and Communication – Brussels Polytechnic School of the Free University…
A new research study explores finite-range interactions for creating quantum entanglement. Metrological institutions around the world administer our time, using atomic clocks based on the…
A new atomic device sends high-fidelity quantum information over fiber optic networks. Researchers have unveiled a new way to connect quantum devices over long distances,…
New approach is a step toward using single photons in quantum communication and information processing. Researchers at the Los Alamos National Laboratory have developed a…
Sandia Labs manufactures its first devices capable of supporting 200 trapped ion qubits. Sandia National Laboratories has produced its first lot of a new world-class…
New study captures the behavior of interacting electrons that give rise to insulating states, addressing a key unsolved puzzle in the field. Princeton-led researchers have…
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…
More is better — to a point — when using a large number of parameters to train machine-learning models on quantum computers. A groundbreaking theoretical…
Scientists have developed a multifunctional metalens capable of structuring quantum emissions from single photon emitters. This innovation enables manipulation of quantum emissions and promises new…
Nanocrystals, despite their ability to be color-tuned and their utility in diverse technologies, have been restricted in their usage due to the need for distinct…
Scientists observe an effect in the quantum world that does not exist in the macrocosm. Researchers at the University of Bonn and ETH Zurich have…
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 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 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…
The use of single-photon detection technology, coupled with entangled photons, facilitates practical applications of Quantum Random Number Generation (QRNG) for secure quantum information tasks. Quantum…