Controlling how electrons interact in semiconductors is crucial for the development of electronic and optical devices. Quantum scientists have now discovered a surprisingly efficient new mechanism to ...

What makes something quantum? This question has kept a small but dedicated fraction of the world’s population – most of them ...

Researchers from the National University of Singapore (NUS) and University of New South Wales (UNSW) Sydney have proven that ...

Scientists, led by Dr. Chumak, create a processor harnessing magnon transport to reduce energy consumption, marking a ...

For the first time, scientists have successfully mapped the shape of an electron while it moves through a solid. This ...

Researchers have confirmed the existence of a "nuclear-spin dark state," which could lead to more stable and powerful quantum ...

Confirmation of this elusive state in quantum systems could lead to more efficient quantum devices.Quantum computers have the potential to ...

Researchers discovered new quantum states in twisted graphene layers, paving the way for energy-efficient electronics and ...

Electronic and spintronic devices are devices that use the properties of electrons to transmit ... use another fundamental property known as spin, which is the intrinsic angular momentum of ...

Spin–charge conversion (SCC) leads to the driving principle of spintronics devices, such as non-volatile magnetic memory and energy harvesting devices from light, sound, and heat to charge current.