Latest Articles for Experimental Research

Enhancing energy measurement precision in particle physics experiments.

Amorphous solids can remember their deformation history and adapt to stress.

Research aims to clarify nuclear matter behavior using heavy-ion collision data.

Research highlights magnetic dipole transitions affecting gamma spectra in nuclear collisions.

Exploring the significance of lepton-flavor violation in particle physics.

Unraveling the mysteries of one-dimensional gases through density correlations.

A look into the lesser-known processes in nuclear physics.

A method to assess entanglement using the Wigner function in quantum systems.

Researchers manipulate light direction using atomic motion and topological models for new optical devices.

Gradient flow renormalisation improves calculations for meson properties and lifetimes.

This study reveals how proton bunches change in plasma and how we measure them.

Transversity offers insights into hadron structure and quark contributions.

Insights into how granular materials react to stress near unjamming.

Research on charged particles from proton-proton and lead-lead collisions reveals new insights.

This article explores how fixed particles affect the dynamics of glass-forming materials.

Researchers explore diamond's potential in detecting elusive low-mass dark matter.

Exploring superconductivity in triangular lattices using the Hubbard model reveals new states and properties.

Research aims to uncover possible light scalar particles alongside the Higgs boson.

New research highlights complexities in measuring neutrino mixing angles due to Lorentz invariance violation.

Researching muon neutrinos and anti-neutrinos to refine particle physics models.

Scientists study dark photons through high-energy particle collisions for clues about dark matter.

Study of neutrinos sheds light on fundamental forces and potential new physics.

Exploring flat bands and their potential in cutting-edge technologies.

A look into the flavor-dependent model of neutrinos and their intriguing properties.

Scientists use nano-diamonds to study gravity at a quantum level.

Researchers improve understanding of meson transitions and photon behavior.

Learn how temperature control enhances laser stability using spectral holes in crystals.

Dive into the intriguing behavior of spin liquids in physics.

ShadowGPT offers innovative solutions for understanding quantum particle interactions efficiently.

Exploring the unique properties of fractional Chern insulators and their implications.

Uncovering the building blocks of matter: nucleons, quarks, and gluons.

Scientists use sunlight to cool single atoms, opening doors to new technologies.

Exploring how pressure, shape, and speed interact between indenters and surfaces.

Exploring the relationship between temperature and stripe order in superconductors.

Researchers identify causal relationships in quantum systems through innovative observational techniques.

Scientists investigate axion dark matter through electron behavior in the Quantum Hall Effect.

Research sheds light on how airflow affects wing behavior under various conditions.

Exploring the interactions of iridium and zirconium carbide at high temperatures.

Exploring the crucial role of excitatory and inhibitory neurons in brain activity.

HoCo's unique properties show promise for innovative cooling applications.