Latest Articles for Experimental Research

Examining weak interactions through electron and positron collisions with protons.

Research focuses on measuring Cherenkov light for better energy detection in particle experiments.

Scientists investigate light bosons, setting limits on their existence through high-energy collisions.

Research reveals collective behavior in smaller particle collisions, challenging traditional views.

Examining the decay processes of charmed baryons reveals essential aspects of fundamental forces.

This study investigates generative neural networks for enhancing particle physics simulations.

Research into pentaquarks reveals their intricate internal structures.

Exploring the unique behaviors of chirality in silver isotopes.

Researchers aim to reveal spacetime SUSY using innovative Rydberg atom experiments.

Exploring the stability of atomic nuclei through magic numbers.

Research on J/ψ production helps reveal nuclear matter behavior during heavy-ion collisions.

Researchers study complex behaviors of frustrated quantum magnets at low temperatures.

Research investigates quantum collapse models using innovative probing methods.

PICOSEC detectors improve timing in particle physics experiments with precision under challenging conditions.

Research measures Higgs boson production rates in collisions involving top quarks.

Researchers measure the Higgs boson's total width to uncover potential new physics.

This article examines how passive Brownian particles behave in a fluctuating harmonic trap.

Discovering how hyperons interact in atomic nuclei provides insights into extreme matter environments.

Research shows breakup dominates at low energies for neutron-halo projectiles and heavy targets.

Researchers aim to detect elusive dark matter particles through innovative experiments.

Study reveals the dynamics of visual memory after images fade.

New insights into light's quantum properties through photonic quadrature lattices.

This article examines the impact of quantum effects on transversity operators in particle physics.

Recent research sheds light on polariton condensates and their potential in quantum technologies.

New methods enhance accuracy in measuring RMI growth rates using machine learning.

Recent findings enhance predictions for W boson decays into heavy quarks.

Study reveals the impact of expectations on our sensory perceptions.

New diagnostic tools are enhancing plasma studies in the SMART experiment.

Exploring the relationship between many-body localization and thermal states in physics.

Research delves into particle decay, enhancing understanding of charmed mesons and their interactions.

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

Research examines reactions of protons in atomic nuclei during collisions.

Study reveals how hydrogel particles respond to pressure and their mechanical properties.

An overview of evaporative cooling techniques for ultracold polar molecules.

Exploring the Scotogenic model's insights into dark matter and neutrinos.

Study reveals how curved graphite responds to magnetic fields.

A look at anyons and their implications in quantum physics.

Research reveals insights into charged Rubidium ions and their interactions at low temperatures.

This article examines how deuterons interact with heavy nuclei at low energy levels.

Exploring how water droplets mimic quantum particle behavior through diffraction.