Diamonds’ Hidden Potential: Physicists Unlock Quantum Power of Imperfect Crystals
Research supported by the Center for Quantum Leaps advances the field of quantum simulation using an atomic-level quantum system. Diamonds are often prized for their…
Research supported by the Center for Quantum Leaps advances the field of quantum simulation using an atomic-level quantum system. Diamonds are often prized for their…
Defects can make a material stronger or make it fail catastrophically. Knowing how fast they travel can help researchers understand things like earthquake…
NIST researchers, studying twisted graphene layers, have unveiled a “quantum ruler” that investigates the material’s unique properties. A single-atom-thick sheet of carbon known as graphene…
Innovative concept changes the direction of laser light with the help of sound waves. Using a novel method, beams of laser light can be deflected…
Quantum physicists at Trinity, working alongside IBM Dublin, have successfully simulated super diffusion in a system of interacting quantum particles on a quantum computer. This…
“Assembly Theory,” a pioneering theoretical framework bridging physics and biology, offers transformative insights into biological evolution and its place within universal physical laws. With applications…
Scientists successfully probed electron behavior in liquids using intense laser fields, unveiling a unique high-harmonic spectrum. Their study identifies a key factor in photon energy…
Ultrafast lasers and X-rays have revealed the coupling between electronic and nuclear dynamics in molecules. Nearly a century ago, physicists Max Born and J. Robert…
Researchers highlight the potential of cobalt-tin-sulfur in spintronic devices, revealing its capability to reduce energy consumption and heralding a new era in electronics. A team…
Scientists unveil exciting possibilities for the development of highly efficient quantum devices. Quantum mechanics is a branch of physics that explores the properties and interactions…
Researchers have utilized Alfvén waves to mitigate runaway electrons in tokamak fusion devices, offering significant implications for future fusion energy projects, including the ITER in…
Experiment measures the energy spectrum of neutrons emitted from neutron-induced fission. The results of the Chi-Nu physics experiment at the Department of Energy’s Los Alamos…
Landmark CERN experiment may help explain why antimatter seemingly lost out in the early universe. If you dropped antimatter, would it fall down or up?…
X-ray laser shows a possible route to substantially increased precision time measurement. An international research team has taken a decisive step toward a new generation…
A team led by Prof. Guo Guoping and Prof. Cao Gang from the University of Science and Technology of China (USTC) of the Chinese Academy…
Researchers employed intense laser fields to uncover unique electron dynamics in liquids, providing new insights into the high-harmonic spectrum and revealing the significance of the…
A new technique based on advanced camera technology demonstrates a rapid and efficient way to reconstruct the full quantum state of entangled particles. Researchers from…
Experiment at CERN eliminates the possibility that antimatter is repulsed by gravity. CERN’s ALPHA collaboration has experimentally confirmed that antihydrogen is pulled down by gravity,…