A new method of using centrifugal force to decelerate particles makes it possible to produce relatively large quantities of cold molecules in a continuous flow,…
An international group of physicists has created, identified, and photographed synthetic magnetic monopoles, paving the way for the detection of the particles in nature. Amherst,…
Researchers at the University of Warsaw have created and studied two new types of solotronic structures, including the world’s first quantum dots containing single cobalt…
The JILA strontium atomic clock has set new world records for both precision and stability, improving precision by 50 percent from the previous record holder…
In a new study, researchers demonstrate “direct measurements” of the quantum state associated with the orbital-angular momentum, showing that direct measurement offers an exciting alternative…
New research from MIT shows that graphene can effectively filter electrons according to the direction of their spin, something that cannot be done by any…
In a newly published study, an MIT physicist details how the creation of two entangled quarks simultaneously gives rise to a wormhole connecting the pair….
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…
A newly published study shows that it is possible to clone quantum information from the past, allowing for a particle, or a time traveler, to…
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…
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…
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…
In a newly published study, researchers from the Vienna University of Technology demonstrate highly efficient switching of optical signals between two optical fibers controlled by…
For the first time, researchers have demonstrated perfectly secure bit commitment, sending encrypted data between pairs of sites in Geneva and Singapore. A breakthrough in…
Scientists at the Max Planck Institute have demonstrated that graphene meets an important condition for use in novel lasers for terahertz pulses with long wavelengths,…
By replacing a flat surface with a surface that contained engineered nanoscale structures, researchers found that the Casimir attraction between two surfaces decreased much more…
