This video explains the function of diodes and how they are used to control the flow of electrical current in electronic circuits. Diodes are essential components that allow current to move in only ...

Nobel Prize winners showcase quantum tunnelling in macroscopic circuits, paving the way for quantum computing.

UC Berkeley emeritus professor John Clarke, UC Santa Barbara professor Michel H. Devoret and UC Santa Barbara professor John M. Martinis were awarded the 2025 Nobel Prize in physics for their ...

This year's Nobel Prize in Physics honors a trio whose 1980s experiments made quantum circuits—and today’s quantum computers—possible.

John Clarke, Michel H. Devoret, and John Martinis built an electrical circuit-based oscillator on a microchip.

John Clarke, John Martinis and Michel H. Devoret will share this year’s physics Nobel for discoveries in the 1980s ...

Though threading is a old concept in computer science, and fabric computing has been a term for about thirty years, the terminology has so far been more metaphorical than strictly descriptive.

This article explores the primary design challenges facing designers of mm-wave radar circuits and discusses solutions that have enabled successful automotive deployments.

This video explores the function of capacitors and their importance in electronic devices. Capacitors store and release electrical energy, making them essential for regulating power and signal flow in ...

When the Australian summer arrives, soaring temperatures often push your home’s electrical system to its limits. Good news, there is a straightforward way to ...

A single phototransistor mimics retinal bipolar cell function while detecting visible and infrared light, enabling low-power image processing through programmable ON and OFF photoresponses.

The humble inventions that power our modern world wouldn’t have been possible without decades of support for early-stage research.