In quantum physics, subatomic particles behave strangely—they can be in two places simultaneously, move through solid objects ...

Boron contains one less electron than carbon, allowing it to accept electrons. Boron essentially opens up a periodic electronic "hole" in the material that has the effect of increasing the ability ...

Plasmonic materials, which affect light at the nanoscale, have captivated humans for centuries, even before their scientific principles ... electron than carbon, allowing it to accept electrons. Boron ...

Advanced imaging techniques like X-ray diffraction and electron microscopy confirmed ... singularities are thought to exist only within black holes, concealed behind event horizons that prevent ...

How can the latest technology, such as solar cells, be improved? An international research team led by the University of ...

By observing tiny ripples in spacetime called "gravitational waves" that propagate away from colliding black holes, ...

The team behind new research on the topic suggests that measuring whether gravitational waves from black hole mergers are right- or left-handed can tell us if the Cosmological Principle — an ...

This causes the material to emit very fast-moving electron particles along with ... Such devices would be enabled by several important principles from quantum physics. One principle is ...

An undiscovered population of ancient black holes may be lurking throughout the universe. These bottomless cosmic pits would have a lot in common with more familiar black holes; in some cases ...