When mobile charge carriers, also known as itinerant electrons, interact with the strong exchange magnetic fields associated ...

In most conventional semiconductors, thermal conductivity decreases as temperature rises because heat-carrying lattice vibrations—called phonons—scatter more frequently.

Researchers at Chongqing University and Chongqing Normal University report a theoretical prediction of a new quantum phase of ...

Researchers from the University of Science and Technology of China have achieved a major breakthrough in optical clock technology, developing a strontium optical lattice clock with stability and ...

Pushed down to a certain scale, the laws of physics seem to fall apart. Astrid Eichhorn, a leader in an area of study called asymptotic safety, thinks we just need to push a little further.

Here is why gallium nitride (GaN) is the natural successor to silicon MOSFETs in the 100–650 V class of power devices.

Scientists have decoded how heat flows in magnetic semiconductors, materials that are critical to emerging technologies such as spintronics, magnetic memory, and quantum devices. The discovery ...

Durham is to lead an ambitious new era of quantum science, funded by a landmark award from the Engineering and Physical Sciences Research Council ...

Lucknow: Nobel prize-winning physicist Konstantin Sergeevich Novoselov inspired students with his thoughts on curiosity, determination, and scientific.

A method to make quantum dots lets them release single photons. The approach could support quantum communication systems.

Scientists have developed a new way to manufacture semiconductor quantum dots that emit faster ...

Physicists have forced light to behave like electrons trapped in a magnetic field, producing a quantized sideways drift that had never been observed in photons before. The experiment, carried out on ...