Researchers at the University of Illinois Urbana-Champaign have detected the existence of a charge density wave of electrons that acquires...
Researchers have found a way to predict the behavior of many-body quantum systems coupled to their environment. The work represents...
When physicists recently steered a tiny microparticle toward a cylindrical obstacle, they expected one of two outcomes to occur. The...
In a historic achievement, University of Rochester researchers have created a superconducting material at both a temperature and pressure low...
If you cool down low-density atomic gas to ultralow temperatures (−273°C), you get a new state of matter called the...
HRL Laboratories, LLC, has published the first demonstration of universal control of encoded spin qubits. This newly emerging approach to...
Glass nanoparticles trapped by lasers in extreme vacuum are considered a promising platform for exploring the limits of the quantum...
Hot gases composed of metal ions and electrons, called plasmas, are widely used in many manufacturing processes, chemical synthesis, and...
Atomic nuclei take a range of shapes, from spherical (like a basketball) to deformed (like an American football). Spherical nuclei...
Tunneling reactions in chemistry are difficult to predict. The quantum mechanically exact description of chemical reactions with more than three...
A new RMIT-led international collaboration published in February has uncovered, for the first time, a distinct disorder-driven bosonic superconductor-insulator transition....
Although electron microscopy can already reveal details as small as one nanometer, ongoing research seeks to break through barriers limiting...
