Last update:

Gravity: We might have been getting it wrong this whole time

Symmetry has been one of the guiding principles in physicists' search for fundamental laws of nature. What does it mean that laws of nature have symmetry? It means that laws look the same before and after an operation, similar ...

Adding memory to pressure-sensitive phosphors

Mechanoluminescence (ML) is a type of luminescence induced by any mechanical action on a solid, leading to a range of applications in materials research, photonics and optics. For instance, the mechanical action can release ...

A new twist on quantum communication in fiber

New research done at the University of the Witwatersrand in Johannesburg, South Africa, and Huazhang University of Science and Technology in Wuhan, China, has exciting implications for secure data transfer across optical ...

On the way to quantum networks

Physicists at LMU, together with colleagues at Saarland University, have successfully demonstrated the transport of an entangled state between an atom and a photon via an optic fiber over a distance of up to 20 km—thus ...

Experimental probe of a complete 3-D photonic band gap

A crystal with a 3-D photonic band gap is a powerful tool to control light, with applications for new types of solar cells, sensors and miniature lasers. Inside a man-made crystal like this, a range of light wavelengths is ...

Wannier90 program becomes community code in major new release

Wannier functions were first introduced by Gregory Wannier in 1937 as an alternative way of describing the electronic ground state of periodic systems. They were linked to Bloch orbitals, the standard method of describing ...

Mapping the path of climate change

Since 1880, the Earth's temperature has risen by 1.9 degrees Fahrenheit and is predicted to continue rising, according to the NASA Global Climate Change website. Scientists are actively seeking to understand this change and ...

Creating and observing current vortices in 2-D materials

Researchers at the University of Chicago and the U.S. Department of Energy's Argonne National Laboratory have developed a new method to measure how photocurrents flow in a 2-D material—a result that could have implications ...

Physicists trap light in nanoresonators for record time

An international team of researchers from ITMO University, the Australian National University, and Korea University have experimentally trapped an electromagnetic wave in a gallium arsenide nanoresonator a few hundred nanometers ...

Acousto-optic modulation of photonic bound state in the continuum

Applying bound states in the continuum (BICs) in photonic integrated circuits enables low-loss light guidance and routing in low-refractive-index waveguides on high-refractive-index substrates. Here, we demonstrate high-quality ...

More news

General Physics
Study uses physics to explain democratic elections
General Physics
High-precision distributed sensing using an entangled quantum network
First detailed electronic study of new nickelate superconductor
General Physics
Low power metal detector senses magnetic fingerprints
Quantum Physics
New technique to study molecules and materials on quantum simulator discovered
Quantum Physics
Computing with spins of light
General Physics
Transformative 'green' accelerator achieves world's first 8-pass full energy recovery
General Physics
Ultrafast camera takes 1 trillion frames per second of transparent objects and phenomena
General Physics
Physics shows that imperfections make perfect
Optics & Photonics
Record-breaking terahertz laser beam
Optics & Photonics
Laser diode emits deep UV light
General Physics
LHCb explores the beauty of lepton universality
General Physics
Platelets instead of spheres make screens more economical
Optics & Photonics
Designing lasers based on quantum physics
General Physics
New ORNL software improves neutron spectroscopy data resolution
Condensed Matter
Walking with atoms—chemical bond making and breaking recorded in action
Soft Matter
Spider-Man-style robotic graspers defy gravity
Quantum Physics
How sensitive can a quantum detector be?
General Physics
How biology creates networks that are cheap, robust, and efficient
Optics & Photonics
Charge model for calculating the photo-excited states of one-dimensional Mott insulators