SISSA Paper “Sums Up” the Details of Irregularities of Space Time
In a review paper, Stefano Liberati provides a systematic overview of the experiments and observations that can be exploited to investigate deviations from Special Relativity….
In a review paper, Stefano Liberati provides a systematic overview of the experiments and observations that can be exploited to investigate deviations from Special Relativity….
Using a new method called Fourier Transform Inelastic X-ray Scattering, scientists are able to measure subtle atomic vibrations faster and more accurately. An international team…
Two newly published studies improve scientists’ understanding of the conditions required for superconductivity and how it can be achieved at realistic temperatures. Even physics can…
New research from the Environmental Molecular Sciences Laboratory opens a new and potentially powerful way to characterize the interactions of nanoparticles with molecules in a…
Using a simple design and inorganic materials, Berkley Lab researchers have developed a micro-sized robotic torsional muscle made from vanadium dioxide that for its size…
By using swimming microengines, researchers from the Max Planck Institute have developed a new method for the active degradation of organic pollutants that is twelve…
Berkeley Lab researchers have demonstrated the first soluble single-layer 2D honeycomb supramolecular organic framework that combines the ordering and porous features of metal-organic frameworks with…
In a new study, an international team of researchers mathematically describe how an expanding universe can emerge when time and space are heated, without requiring…
Using the distributed computing project Einstein@Home, international volunteers discover four cosmic lighthouses in data from NASA’s Fermi gamma-ray space telescope. The combination of globally distributed…
In a newly published study, researchers from the IceCube Neutrino Observatory detail the discovery of the first solid evidence for astrophysical neutrinos from cosmic accelerators….
In a newly published study, researchers detail the experimental generation and full characterization of an ultra-large-scale entangled state containing more than 10,000 entangled modes, which…
By providing oxygen at the right surface concentration, researchers from the University of Texas at Austin were able to grow graphene crystals that were about…
In a newly published study, scientists showed “photon-mediated interaction” between artificial atoms confined to a one-dimensional quantum system. An international team of scientists has shown…
In a newly published study, an international team of researchers detail how they used an ensemble of phosphorous-31 donors in isotopically purified silicon-28 to demonstrate…
Researchers from Karlsruhe Institute of Technology have made a big step towards a single-atom bit, showing that the magnetic moments of single holmium atoms on…
By surrounding an object with small antennas that collectively radiate an electromagnetic field, engineers demonstrate active electromagnetic cloaking. Invisibility cloaking is no longer the stuff…
In a newly published study, researchers from the Natural History Museum provide the first evidence that any organic material, either inside a meteorite or already…
A team of scientists has discovered a new asymmetric topological insulator made of many layers of BiTeCl, which enables electrical current to flow differently along…