When we look out into space, all of the astrophysical objects that we see are embedded in magnetic fields. This...
In modern computers, errors during processing and storage of information have become a rarity due to high-quality fabrication. However, for...
A new technique for studying defects in semiconductor materials could lead to improved speed, power and performance of electronic devices...
Quantum computers promise to revolutionize science by enabling computations that were once thought impossible. But for quantum computers to become...
Researchers at Florida State University’s Center for Advanced Power Systems (CAPS), in collaboration with Colorado-based Advanced Conductor Technologies, have demonstrated...
High-fidelity quantum logic gates applied to quantum bits (qubits) are the basic building blocks of programmable quantum circuits. Researchers at...
A laser pulse that sidesteps the inherent symmetry of light waves could manipulate quantum information, potentially bringing us closer to...
Topological ideas have recently taken the center stage of modern electromagnetics. Typical topological photonic systems are based on nonreciprocal materials,...
Researchers have discovered in two-dimensional conductive systems a new effect that promises improved performance of terahertz detectors. A team of...
Just about every car, train and plane that’s been built since 1970 has been manufactured using high-power lasers that shoot...
Physicists at EPFL, within a large European collaboration, have revised one of the fundamental laws that has been foundational to...
Controlling strong electromagnetic fields on nanoparticles is the key to triggering targeted molecular reactions on their surfaces. Such control over...
