Latest Articles for Electrons

Researchers propose a method to measure electron spin using sound and light in superfluid helium.

This article evaluates the potential of LK-99 as a room-temperature superconductor.

Discover the intriguing topological features of carbon's various allotropes.

New experiment aims to clarify proton structure measurement issues.

Graphene's unique properties lead to advanced sensing applications in various fields.

A novel model that simplifies the study of atom interactions.

This article details the efficiencies of electrons and photons in LHC experiments.

Research investigates where cosmic-ray electron spectrum may end and its implications.

New techniques promise high-energy particle acceleration using laser wakefield methods.

COMET aims to observe muon to electron conversion without neutrinos.

Investigating the properties and potential of radium fluoride through advanced techniques.

Timepix3 enhances electron microscopy for detailed structural analysis.

This study sheds light on how shocks heat electrons in space environments.

This article explores how plasmas interact with semiconductor materials, focusing on electron behavior.

Improvements in energy measurement accuracy for electrons and photons at the ATLAS detector.

An overview of superconductors, electron pairing, and their implications.

Examining how heat transfers between closely spaced metal surfaces.

Researchers study high-harmonic generation in ReS2 for future technology applications.

Researchers aim to manage electron behavior in graphene for practical uses.

Examining how giant fullerenes can enhance high-order harmonic generation.

A look into how light alters electron and phonon behavior in graphene.

Examining domain growth dynamics in an asymmetric Coulomb glass model.

Investigating how electrons behave in the unique geometry of graphene Möbius strips.

Examining Millikan's contributions to physics and his advocacy for Japanese Americans.

Research at Belle II sheds light on elusive axion-like particles.

Study reveals how particles behave at interfaces between different materials.

New hybrid method enhances study of matter using X-ray lasers.

Recent measurements of Fe17 improve our understanding of space phenomena.

Investigating LaNiO’s unique properties and its potential for superconductivity.

Research on microquasar V1343 Aql reveals particle behavior and gamma-ray emissions.

Recent studies reveal surprising transitions in cuprate materials from superconductors to metals.

Scientists explore dark matter's existence via innovative detector technology.

Vanadium dioxide exhibits rapid phase transitions with significant implications for technology.

Discover how electrons and surface acoustic waves are reshaping quantum computing.

Researchers investigate electron interactions for potential dark matter detection.

A look into the fast reactions of cyclobutanone under light exposure.

Examining new methods for studying light-matter interactions in different systems.

Research on SrRuO reveals complex behaviors in superconductivity and electron interactions.

Research reveals complexities in phase transitions, highlighting electron-lattice interactions.

Examining how magnetic fields affect resistance in certain materials.