Latest Articles for Experimental Research

Researchers explore innovative materials to improve dark matter detection methods.

Examine how particles shift behavior under various forces in quantum physics.

Research on dark matter interactions using data from the ATLAS experiment.

A look at how materials age over time after being disturbed.

Research reveals how quark mass influences meson characteristics and interactions.

Learn how Gaussian random fields help correct the look-elsewhere effect in physics data analysis.

A look into the effects of nonreciprocal materials in vacuum conditions.

Researchers propose innovative methods to identify light dark matter particles.

A novel approach simplifies the analysis of magneto-oscillations in two-dimensional systems.

Investigation into the theoretical decay of protons and its implications for physics.

Researchers investigate plasma dynamics during ablation using pulsed-power-driven systems.

Research reveals new ways chemical patterns influence fluid movement.

Research on ions of Holmium and Dysprosium aids understanding of neutrino mass.

This article examines rare decays of bottom quarks and implications for fundamental physics.

This article examines acoustic black holes and their role in studying Hawking radiation.

Researchers study how gravity behaves at quantum levels using light and mechanical systems.

Researchers use machine learning to analyze complex quantum systems with noisy data.

Research sheds light on the complex stability of dodecagonal quasicrystals using hard sphere models.

NOvA experiment reveals key findings on neutrino interactions and oscillations.

Research reveals complexities of electron behavior in two-dimensional systems and quantum Hall effects.

Researchers investigate new particles through high-energy collisions at the Large Hadron Collider.

GdPt B showcases unusual magnetic behaviors and the topological Hall effect.

Neural networks enhance the accuracy of predicting nuclear masses, bridging gaps in theoretical models.

New findings on antiferromagnetic materials and their potential in technology.

This research explores the unique properties of P-wave bottom baryons and their internal structures.

This article examines how driving frequency influences electron dynamics in capacitively coupled plasma.

This article examines synchronization phenomena in hot rubidium vapor and its implications.

Scientists investigate hidden photon dark matter using innovative experimental techniques.

Examining how defects affect heat transport in ion crystals.

Recent findings shed light on the properties and behaviors of singly charmed baryons.

Researchers use muon experiments to investigate potential new particles in physics.

Researching particle pairs in high-energy collisions at the Large Hadron Collider.

Researchers improve techniques for using polar molecules in quantum technologies.

New research reveals how quantum entanglement affects top quark behavior in collisions.

This article examines flavor-changing decays of the Higgs boson in the Two Higgs Doublet Model.

Researching 4Hb-TaS reveals intriguing connections between magnetism and superconductivity.

Research reveals how pressure influences superconductivity in the material LaNiO.

Research sheds light on bosonic gases at low temperatures and their behaviors.

Insights into pion interactions and scalar meson behavior from recent experiments.

New research explores Haldane model applications in brick-wall lattice structures.