Latest Articles for Electrons

Study of electron interactions in double quantum dots and their potential applications.

This article examines how the Thomas-Fermi model explains atomic properties and periodicity.

Study reveals crucial insights into ion temperatures during nuclear fusion processes.

Neutrinos offer insights into solar processes and particle physics.

Insights into how heat moves through thin films, enhancing electronic devices.

Alfvén waves play a crucial role in energy transfer within space plasmas.

Simulations reveal how particles gain energy during magnetic reconnection, affecting solar flare dynamics.

Investigating charge density waves reveals new insights into electron behavior in materials.

A new experiment aims to detect Axion-Like Particles for dark matter insights.

Study reveals insights into heat and electricity movement in 2D materials.

Triton’s atmosphere is shaped by magnetospheric electrons and complex magnetic fields.

Exploring the role of neutrinos and electrons in particle physics.

Examining how temperature influences electron and hole behavior in CsPbI nanocrystals.

SLAMS influence high-energy particle acceleration in cosmic environments.

Research reveals how temperature affects brightness variations near our galaxy's supermassive black hole.

A model revealing how electrons move in and out of quantum dots.

Research reveals new insights into low-temperature interactions of ArH with electrons.

mBLOR functional enhances Density Functional Theory for better material predictions.

Research highlights energy dynamics of electrons in plasma for improved beam quality.

La Ni O shows promise as a superconductor at high temperatures under pressure.

A new method reduces temperatures in quantum devices using on-chip cooling of electron gases.

Investigating how hydrogen atoms lose energy when interacting with metal surfaces.

A study of how tiny electron clusters interact under various conditions.

Examining how silicon dangling bonds influence reactions with phosphorus bromide and phosphine.

Research reveals unique superconducting properties of twisted bilayer WSe₂, challenging existing theories.

Researchers are optimizing laser-plasma accelerators using machine learning for better electron beam production.

A look at how scientists study electron interactions using mathematical methods.

Study reveals changes in Earth's magnetic field due to weak solar wind.

Research reveals a unique shock in laser-created plasmas, offering insight into space phenomena.

ExcitationSolve offers an efficient way to optimize ansätze in quantum chemistry.

Research on Majorana bound states and quasiparticle poisoning impacts quantum computing.

Researchers discover ways to change liquid properties using polarons.

Research reveals how moving electrons affect light interaction in graphene.

Research on using terahertz radiation for fast electron pulses shows promising results.

This study examines how nanostructured silica reacts to ionizing radiation.

Research highlights similarities and differences in whistler-mode wave effects on electrons.

Researchers create controllable 2D quantum dot arrays for quantum computing applications.

Researchers explore room temperature fuels for fusion energy efficiency.

Researchers utilize autocorrelation to understand the behavior of attosecond pulses.

Research improves gamma-ray emission efficiency using lasers and plasma interactions.