Summary
Non-technical description Next-generation low-power electronics, wireless technologies, and the Internet of Things (IoT) require diode devices that can operate efficiently at high frequencies, with low power input and minimal energy loss—capabilities that remain challenging for conventional diode systems. This project focuses on a new class of materials called quantum diodic magnets (QuDiM), which host “quantum dipoles”—dipolar distributions of quantum wavefunction properties that enable current rectification, where electric current flows more easily in one direction than the other, a definin