Quantum model explains how single electrons cause damage inside silicon chips

Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices—a detrimental ...
Noozhawk

New Model Shows How Electrons Cause Damage Inside Silicon Chips

Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices — a detrimental ...
Phys.org

Silicon quantum processor detects single-qubit errors while preserving entanglement

Quantum computers are alternative computing devices that process information, leveraging quantum mechanical effects, such as entanglement between different particles. Entanglement establishes a link ...
RealClearScience

Quantum Mechanics Could Overcome Limits of Silicon Semiconductors

Silicon transistors, which are used to amplify and switch signals, are a critical component in most electronic devices, from smartphones to automobiles. But silicon semiconductor technology is held ...

Stretching Diamonds Unlocks Powerful New Quantum Sensing Abilities

Computational modeling reveals how stretching and squeezing a diamond’s crystal lattice precisely tunes the dynamic quantum ...
Nanowerk

Atomic layer processing for silicon carbide-based quantum photonic circuits

Silicon carbide is for photonic circuits and quantum devices. Atomic layer processing boosts SiC waveguides and resonators, improving performance. (Nanowerk News) Quantum systems are the rising stars ...
news.ucsb.edu

New model explains how single electrons cause damage inside silicon chips

Researchers in the UC Santa Barbara Materials Department have uncovered the elusive quantum mechanism by which energetic electrons break chemical bonds inside microelectronic devices — a detrimental ...