Latest Articles for Experimental Physics

Investigating proton decay and its implications for particle physics.

Neutrinos influence fundamental processes in the universe through oscillations and decay.

A look into the stability of the vacuum in particle physics.

Research on neutrinos reveals their unique properties and potential influence on fundamental physics.

Exploring interactions in one-dimensional quantum systems and their implications.

A novel method for achieving topological superconductivity using magnetic barriers in Josephson junctions.

This article examines how inertia and slip influence liquid film stability on fibres.

New theories are essential to address gaps in our understanding of fundamental particles.

Researchers explore how structured light interacts with spin for innovative applications.

CP violation in B decays reveals gaps in modern physics theories.

Research at ATLAS aims to identify new particles linked to supersymmetry.

Recent studies shed light on Higgs boson connections to W and Z bosons.

An overview of how less thick fluids interact with thicker ones.

Research focuses on improving single-photon detection using transmon qubits in quantum technology.

Exploring the role of disorder in Kitaev spin liquids and their unique properties.

This article examines the dynamics and applications of nanomagnet vertices in technology.

Researchers observe unique state switching in Rydberg gases, revealing new quantum dynamics.

The CMS detector is set to improve data collection with a new calorimeter system.

A look into the complex nature of dark matter and its candidates.

Multipass Quantum Process Tomography enhances accuracy in quantum computing measurements.

Investigating hadrons, their formation, and ongoing challenges in particle physics.

Researchers study Higgs boson characteristics and decay processes for deeper understanding.

Exploring the impact of strong interactions on quantum behavior using interferometers.

Examining how draining flows affect quantum vortices' stability and behavior.

This study examines the influence of viscosity on Faraday waves in confined liquids.

Analyzing heavy quark production provides insights into quark and gluon behavior.

Exploring how temperature oscillations in metals respond to external heat sources.

Exploring how impurities in graphene affect the Casimir interaction.

Investigating axion (anti)quark nuggets as potential dark matter candidates.

Study reveals unique light behavior in nitrogen-vacancy centers and superconducting cavities.

New findings on Josephson junctions enhance understanding of superconductivity and its applications.

Thouless pumps demonstrate quantized particle transport in quantum systems with practical implications.

This article discusses the significance of two-nucleon emission in neutrino interactions.

This study examines how critical currents affect superconducting quantum interference filters.

Examining the role of quantum Fisher information in chaotic quantum systems.

Examining the role of chiral interaction in photon blockade for quantum technology advancements.

Research reveals insights into strange quarks and their effects on nucleon properties.

Exploring the role of Majorana zero modes in the future of quantum computing.

Research explores elastic scattering and the significance of Pomeron and Odderon at LHC.

Scientists investigate Axion-Like Particles to address dark matter and particle interaction questions.