The research so far has focused on using photons emitted by the NV centers to create this interaction under a special lo…

Method Gives Scientists New Ways to Study Rapid Nuclear Motions in Nature's Light Dependent Processes

Researchers used the UED instrument’s electron beam to look at iodine molecules at different points in time after the la…

Physicists have manipulated light with large artificial atoms, so-called quantum dots. Before, this has only been done s…

Microwaves created at near absolute zero temperature provide uniquely correlated and controllable states.

Researchers at Aalto University have demonstrated the suitability of microwave signals in the coding of information for…

Samarium nickelate shows promise for active photonic devices – the material could potentially transform optoelectronic technologies, including smart windows, infrared camouflage, and optical communications

A team led by Nanfang Yu, assistant professor of applied physics at Columbia Engineering, has discovered a new phase-tra…

Photonic crystals that Semouchkina and her team employ for the cloak medium are able to provide superluminal phase veloc…

A ‘Nonlinear’ Effect that Seemingly Turns Materials Transparent is Seen for the First Time in X-rays at SLAC’s LCLS

The observation is a milestone in the quest to understand how light interacts with matter

Materials scientists and physicists at Lehigh have demonstrated a new method of making single crystals that could enable…

Aspherical lenses improve precision and intensity of microscopy illumination

These aspherical lenses guarantee significantly higher light homogeneity and intensity because of the increased efficien…

SLPs are a key component of 3D AOI machines

ForthDD’s SXGA-3DM is a fast switching, all digital, high performance reflective Spatial Light Modulator product. Design…

In their experiment, Keller and her collaborators exposed a tiny piece of diamond with a thickness of only 50 nanometres…

The technology has great potential for applications in quantum computing and quantum information technology, as well as…

For All Transversale Modes with M² < 20

Laser beams with a ring-shaped profile are required in ophthalmology, laser welding, and the material ablation of thin f…

The NIST gyro’s glass atom chamber is just 3.5 cubic centimeters in size. The entire experimental setup, including low-p…

Research findings prove the capabilities of silicon nanoparticles for flexible data processing in optical communication systems

Research findings prove the capabilities of silicon nanoparticles for flexible data processing in optical communication…

In the paper published on 23 August, the researchers demonstrate that the distribution of the optical vortices in random…

Electrons reveal their quantum properties when they are confined to small spaces. Scientists from TU Wien (Vienna), Aachen and Manchester have created tiny quantum dots in Graphene.

The high symmetry of the graphene lattice allows for four different quantum states. This opens up new pathways for quant…

Researchers at Queen's University Belfast and ETH Zurich, Switzerland, have created a new theoretical framework which co…

Yale physicist Leonid Glazman has developed a quantitative theory to explain the effect of quantum and thermal fluctuati…

Rice University physicists probe photon-electron interactions in vacuum cavity experiments

Rice physicists are closing in on a way to create a new condensed matter state in which all the electrons in a material…