Researchers at the University of California, Riverside, have uncovered how to manipulate electrical flow through crystalline ...

A series of compounds featuring fused six-membered silicon rings represents a step up in complexity for the class of ...

Silicon LED created by buzzing surface with high-speed electrons Free-flying electrons generate light in silicon, CMOS lasers long way off.

In a step that brings silicon-based quantum computers closer to reality, researchers at Princeton University have built a device in which a single electron can pass its quantum information to a ...

Silicon spin qubits could soon help unlock the next stage of quantum computing. For decades, scientists have tried to harness the power of quantum mechanics to perform calculations beyond the ...

In the rapidly evolving field of quantum computing, silicon spin qubits are emerging as a leading candidate for building scalable, fault-tolerant quantum computers.

Qubit avoids quantum wrecking ball, silicon may be future for quantum computers.

A 10-micrometer-thick silicon layer lies on top of the detector, and above that comes the electron-injecting part of the chip.

Researchers have developed a new method for manipulating information in quantum systems by controlling the spin of electrons in silicon quantum dots. The results provide a promising new mechanism ...

Researchers at North Carolina State University have discovered a new distinct form of silicon called Q-silicon which could lead to advances in quantum computing, including the creation of a spin ...

They consist of two layers of silicon - on one side there’s an excess of valence electrons, and in the other a deficit. This is achieved by doping - contaminating each layer by a different element.

In the rapidly evolving field of quantum computing, silicon spin qubits are emerging as a leading candidate for building scalable, fault-tolerant quantum computers.