New application of physics tools used in biology
A Lawrence Livermore National Laboratory physicist and his colleagues have found a new application for the tools and mathematics typically used in physics to help solve problems in biology.
Researchers 'design for failure' with model material
(Phys.org) —When deciding what materials to use in building something, determining how those materials respond to stress and strain is often the first task. A material's macroscopic, or bulk, properties ...
Research team challenges the limits of famous quantum principle
(Phys.org) —A team of physicists is challenging the very limits of Heisenberg's famous uncertainty principle by measuring quantum particles with unprecedented accuracy.
Optical data storage has virtually unlimited lifetime
Diamond defect boosts quantum technology
New research shows that a remarkable defect in synthetic diamond produced by chemical vapor deposition allows researchers to measure, witness, and potentially manipulate electrons in a manner that could lead ...
Closer look reveals mechanism behind curling of ancient scrolls
Researchers move an atom inside a crystal and investigate its function
Nanotechnology is a thriving science. Parts for computers for example are becoming smaller and more precise by the minute. One of the most efficient computers would be the so-called quantum computer. Up to ...
New study advances quest for better superconducting materials
Nearly 30 years after the discovery of high-temperature superconductivity, many questions remain, but an Oak Ridge National Laboratory team is providing insight that could lead to better superconductors.
Researchers find reactions occur faster in micro-droplets
Researchers demonstrate proof of creation of a mirror by optical matter
First instance of ball lightning captured on video and spectrographs
Team models sudden thickening of complex fluids
(Phys.org)—A new model by a team of researchers with The City College of New York's Benjamin Levich Institute may shed new understanding on the phenomenon known as discontinuous shear thickening (DST), ...
Quantum-to-classical transition may be explained by fuzziness of measurement references
Fusion instabilities lessened by unexpected effect
(Phys.org) —A surprising effect created by a 19th century device called a Helmholz coil offers clues about how to achieve controlled nuclear fusion at Sandia National Laboratories' powerful Z machine.