Adjusting the size and chemistry of nanocrystals within an ultrathin surface can speed up light-driven chemical reactions, according to a University of Michigan Engineering study published in the ...

Two independent lines of evidence from the world’s most powerful particle experiments are converging on the same ...

Make sound visible! This easy Chladni Plate experiment teaches kids about sound waves, resonance, and frequency through hands-on learning.

Researchers use directed evolution to create magneto-sensitive fluorescent proteins that can interact with magnetic fields and radio waves ...

The history of ‘everyone’s favorite hexagon’ illustrates the resonance of basic science and how discoveries build over time ...

Coastal regions are increasingly exposed to low-frequency and long-period waves driven by climate change, sea-level rise, and intensifying extreme events, ...

Uncover the fascinating world of resonance in driven and damped oscillatory systems! In this video, we break down how external forces, damping, and natural frequencies interact to create resonance ...

In this project, the student will work on probabilistic modelling and machine-learning techniques to advance the current description of nuclear reactions in specific energy regimes of astrophysical ...

Quantum materials and superconductors are difficult enough to understand on their own. Unconventional superconductors, which ...

Using light to process data signals has advantages that are ideal for heavy workloads like AI due to greater bandwidth, less ...

With the terahertz scope, the team observed a frictionless “superfluid” of superconducting electrons that were collectively ...

CERN's ALICE experiment has resolved the puzzle of deuteron formation, showing that most deuterons form via resonance-driven coalescence after collisions cool.