Fast and energy-efficient future data processing technologies are on the horizon after an international team…
Browsing: Electromagnetics
Electromagnetics is a branch of physics that studies the interactions between electric charges and magnetic fields. It explores how electric and magnetic fields are generated by charged particles, how they affect those particles, and their interactions with each other. Key principles within this field include Coulomb’s law for electric forces, Ampère’s law and Faraday’s law for magnetic phenomena, and the induction of electromotive forces. Electromagnetics is fundamental to understanding and designing a wide range of applications, from electrical and communication systems to various types of motors and generators. Maxwell’s equations, formulated by James Clerk Maxwell in the 19th century, elegantly describe the fundamental laws of electromagnetism and have profoundly impacted modern technology and theoretical physics.
Machine Learning Revolutionizes Planetary Orbit Prediction A novel computer algorithm, or set of rules, that…
Scientists shed light on how the magnetic properties of 2D interlayers can enhance spin accumulation…
Researchers have identified a new form of magnetism in so-called magnetic graphene, which could point…
Scientists developed a phonon laser that emits coherent sound using polariton BECs in semiconductor microcavities.…
A new three-layered graphene system, twisted at the magic angle, shows enhanced superconductivity and tunability,…
Physicists use atomic magnetometers to measure the biomagnetic signals of the carnivorous plant. The Venus…
Rice University and Los Alamos National Laboratory make low-cost, scalable photocathodes from halide perovskites. Rice…
Tool uses electromagnetic energy to help study inactivation of aerosolized viral particles and reduce the…
QCLs Exhibit Extreme Pulses Extreme events occur in many observable contexts. Nature is a prolific…
A new methodology for an abstract and universal description of the fidelity of quantum circuits.…
Laser-twisted crystal lattices unlock topologically protected, nearly resistance-free currents ideal for quantum computing. Scientists at…
A quantum breakthrough allows ultra-precise multi-parameter measurement with no trade-offs, defying traditional limits. Real-life applications…
Transmitter density means greater population exposure to high levels of radio frequency electromagnetic fields. We…
A new Columbia study indicates energy can be extracted from black holes through reconnection of…
A Compact Solar Particle Detector for Space Application Researchers from the Moscow Institute of Physics…
Scientists at the Tokyo Institute of Technology (Tokyo Tech) discover a mechanism in antiferromagnets that…
A potential boon to green manufacturing, the new glue saves on energy, time, and space.…