University of British Columbia (UBC) scientists have demonstrated a reversible way to switch the topological state of a quantum material using mechanisms compatible with modern electronic devices.

Researchers have demonstrated a new material for single-molecule electronic switches, which can effectively vary current at the nanoscale in response to external stimuli. The material for this ...

Check out our PCIM 2022 coverage. Soft-switching hasn't been previously implemented in dc-ac systems with varying input voltage, temperature, and load conditions. But that's no longer the case: ...

All-optical switching is the modulation of signal light due to control light in such a way that it possesses the ON/OFF conversion function. In general, a light beam can be modulated with another ...

Gallium nitride (GaN) is breaking out in the world of power electronics. GaN stands out for its superior physical properties, including high electron mobility, wide bandgap, and high thermal ...

A solid-state electronic switch based on an atomic sheet of molybdenum disulfide is demonstrated in the 6G communication band with very high speed data transmission. Fig. 1: 6G non-volatile monolayer ...

The switch is one of the most fundamental components in any electronic system — the point at which human intent becomes electrical signal. For most of the history of electronics, that conversion has ...

The circuits was designed to illustrate the different functionality of an ON-OFF electronic switch the uses a push button mechanism. Three circuits have been sampled that utilizes the push button ...

University of British Columbia scientists have demonstrated a reversible way to switch the topological state of a quantum material. The figure images show the transition from gapless nodal loop (dark ...