Topological superconductors are a distinct form of matter that is predicted to host boundary Majorana fermions. These quasi-particles are the emergent condensed matter analogs of the putative elementary spin-1/2 particles originally proposed by Ettore Majorana in the 1930’s with the intriguing property of being their own
Immucor, Inc., a global leader in transfusion and transplantation diagnostics, has acquired Sentilus, Inc., a company focused on developing a novel, inkjet-printed antibody microarray-based technology called Femtoarrays™.
Terminator 2 is widely remembered for its metal shape-shifting villain. Impervious to bullets, explosives, and fire, theT-1000 robot was capable of changing shape at will. Researchers at the North Carolina State University have taken a step towards making science fiction a reality by developing a technique for controlling the surface tension of liquid metals using very low voltages.
Discovery: Magnetic properties of cobalt films can be optimized through nanoscale structuring and thermal annealing.
Researchers from North Carolina State University have developed a novel and versatile
Effect: We have demonstrated that the shape of the Hanle
The collaboration among Hong Tang, Charles Ahn, and Fred Walker’s groups recently realized a new type of electro-optic modulator based on epitaxial ferroelectric BaTiO3 on silicon. A very high Pockels’ coefficient, up to 213 pm/V, was demonstrated, a record value that is more than six times larger than found in commercial optical modulators based on lithium niobate.
In this work, we study a novel dynamical phase transition of light, where photon-photon interactions and dissipation into the environment are key aspects of the physics. Together they give rise to a transition from a region of classical behavior into a regime where quantum effects dominate. The transition was observed in a Jaynes-Cummings dimer built
