Latest Articles for Experimental Research

Scientists investigate new particles to solve fundamental mysteries in physics.

Examining how light interacts with groups of atoms in dense gases.

This article explores how laser characteristics influence electron acceleration in plasma.

Study updates predictions for the lifetimes of doubly charmed baryons.

Investigating behaviors of one-dimensional bosonic rubidium atom systems.

Researchers investigate the complex behaviors of atom-cavity hybrid systems.

Scientists study top quark production with light jets to advance particle physics.

Discovering exotic states formed by hadrons and their interactions.

Research shows improved light storage using polarized atoms and magnetic fields.

Exploring the unique nature of triply-heavy tetraquarks in particle physics.

Scientists study dark fermions to uncover the secrets of dark matter.

Studying electron-proton collisions reveals key information about fundamental particles.

A look into the hunt for dark jets and their implications for particle physics.

New insights into how Fermi polarons interact with impurities in ultracold atom systems.

Scientists investigate the connection between gravity and quantum effects in larger systems.

This article explores deconfined quantum criticality and its impact on material behavior.

Investigating the role of millicharged particles in dark matter's mystery.

Researchers investigate self-modulation effects in proton bunches within plasma.

This research examines how materials transform from insulating to metallic states under light.

Neutrinos could challenge our understanding of physics by testing CPT invariance.

Recent CMS findings hint at exciting possibilities beyond the standard model.

Study reveals complexities of meson and baryon photoproduction interactions.

Research on three-level atoms and their interaction with light reveals complex phase behavior.

Research shows how laser strength influences ionization in argon-water compounds.

Examining particle behavior to explain matter-antimatter imbalance.

Research reveals surprising behaviors of Anderson insulators when exposed to magnetic fields.

Researchers study surface patterns in liquids under vibrations to understand fluid behavior.

Study reveals how electric fields prevent energy loss during molecular collisions.

Scientists study proton behavior in heavy-ion collisions to find the critical point.

Researchers investigate decay processes to assess lepton flavor universality and its implications.

Investigating the complex world of exotic hadrons and their properties.

Learn how superfluid disturbances create unique wake patterns influenced by speed.

Research delves into potential new particles and interactions at the frontier of particle physics.

CERN's FASER experiment reveals new limits on dark photons and first neutrino detections.

New findings deepen our knowledge of matter and antimatter through particle decays.

Exploring the complex shapes of mercury isotopes and their effects on nuclear properties.

Scientists study colloidal ice using Cairo geometry to reveal complex particle interactions.

Research reveals how Rydberg atoms respond to dual-tone RF fields.

Exploring the inverse seesaw model and its implications for neutrino properties.

This article examines the process and models used in nuclear multifragmentation.