Latest Articles for Experimental Research

This article examines the role of light sterile neutrinos in the early universe.

A look into tetraquarks and their unique properties in the charm sector.

This article discusses bound states formed by particle interactions in quantum systems.

New Few-Degree Calorimeter aims to improve gluon studies at the EIC.

A study on stick-slip dynamics in granular materials with varied grain shapes.

Researchers are tackling neutron noise in experiments to study rare particle behavior.

Neutrinos are tiny particles that challenge our understanding of the universe.

New experiments reveal important details about leptoquarks through neutrino interactions.

Researchers enhance electron acceleration using new laser techniques.

Investigating pendulum chains and Ned Kahn's kinetic facades in windy conditions.

Researchers study KPOs for solving complex optimization problems using the Ising model.

A look into the unique state of matter formed in extreme conditions.

HEFT sheds light on particle interactions and the Higgs boson's significance.

New findings on quark interactions expand our understanding of particle physics.

New methods improve the study of lepton magnetic moments at high energy collisions.

This article examines the superconducting properties of LaNiO3 under pressure.

Scientists investigate heavy Higgs bosons through proton-proton collisions at the LHC.

Research sheds light on nucleon interactions at short distances using CLAS12 experiments.

Exploring Majorana bound states' potential in quantum computing and superconductivity.

Examining single particle production at forward rapidities in high-energy collisions.

New insights on antineutrino interactions with hydrogen enhance our understanding of particle physics.

Exploring how atomic light emission shapes quantum technology.

Researching neutrino interactions may lead to breakthroughs in dark matter detection.

Researchers develop cavities to enhance light-matter interaction studies at the nanoscale.

Research reveals key insights into atomic decay and energy spectra at low levels.

An exploration of the decays of strange quark particles and their implications.

This study highlights how initial conditions affect Richtmyer-Meshkov instability and fluid mixing.

Research on particle collisions enhances our understanding of fundamental physics.

Investigating how Yttrium Carbide's structure influences its superconducting properties.

Recent findings in particle physics reveal unexpected results in B meson decays.

Study reveals how pressure influences flow behavior in soft particle systems.

Exploring pion mass shifts linked to electroweak gauge bosons.

Study reveals how materials impact conductivity and resistive behavior.

Researchers investigate CP violation in Higgs interactions using data from the International Linear Collider.

Study explores rapidity gaps in diffractive scattering at HERA and future EIC.

Study reveals how potassium-39 atoms interact with patterned magnetic films.

Investigating unique pentaquark states and their implications for particle physics.

A study on how particles behave when temporarily tethered to surfaces.

Investigating mediators to uncover secrets of dark matter and neutrino behavior.

Kitaev materials reveal interesting magnetic behaviors through unique spin interactions.