Researchers have developed a method to measure gravity at a microscopic level, marking a significant advancement in understanding quantum gravity. Credit: SciTechDaily.com Physicists successfully
Researchers have developed a theory suggesting the existence of quantum viscosity in superfluids, potentially bridging classical and quantum hydrodynamics. This novel approach, which involves
A cryptographic tag developed at MIT uses terahertz waves to authenticate items by recognizing the unique pattern of microscopic metal particles that are mixed
Princeton researchers have totally reimagined the physics of computing to build a chip for modern AI workloads, and with new U.S. government backing they
Recent research has made significant strides in the development of optical neural networks, presenting a sustainable alternative to the energy and resource-intensive models currently
By David L. Chandler, Massachusetts Institute of Technology March 5, 2024 In MIT’s Plasma Science and Fusion Center, the new magnets achieved a world-record
Researchers have innovated a privacy-preserving machine-learning method for genomic research, balancing data privacy with AI model performance. Their approach, using a decentralized shuffling algorithm,
Scientists at the DOE’s Brookhaven National Laboratory have discovered that coating tantalum with magnesium significantly enhances its properties as a superconducting material for quantum
International scientists discovered that magnetostriction significantly influences muon localization in certain materials, overturning previous assumptions in muon spectroscopy. This breakthrough, achieved through advanced simulations,
Schematic representation showing how a graphene layer protects against water. The electrical current flowing along the edge of the topological insulator indenene remains completely