Latest Articles for Experimental Physics

A look into winos and their role in dark matter detection.

Study reveals key patterns in strange hadron production from heavy-ion collisions.

Exploring a theory that addresses neutrino mass and dark matter.

Study explores energy levels and properties of polonium isotopes using shell-model calculations.

A new approach to confirm entanglement using thermodynamic measures in quantum systems.

Exploring entropy production complexities in quantum mechanics and noncommuting charges.

Explore the role of axions in solving the strong CP problem in physics.

Examining how heavy quarks transform into hadrons during particle collisions.

Researchers investigate paired bosons in a square lattice to reveal exotic states of matter.

This study investigates Majorana neutrinos using data from high-energy particle collisions.

A look into how saturation affects particle interactions in extreme conditions.

Researchers investigate dark Higgs bosons to better understand dark matter.

Scientists examine electroweak corrections to improve predictions for particle collisions.

Exploring large extra dimensions and their impact on neutrinos and particle physics.

This study presents a method for adaptable quantum circuits using light.

This study explores time-dependent systems with unique topological features and non-Hermitian effects.

A look into weak scale supersymmetry and its implications for naturalness in particle physics.

Exploring DMI's significance in magnetic materials and its applications in spintronics.

Researchers investigate a unique state of matter with mixed superconducting and metallic properties.

A look into neutrinos, their behavior, and implications in particle physics.

This article explores how hyperons are produced from antineutrino interactions with nuclei.

New findings on triboson production enhance our understanding of particle interactions.

Scientists improve particle identification using the aerogel RICH detector in Japan.

Research on PrOs4Sb12 reveals new insights into superconductivity and quantum states.

New findings improve particle interaction predictions in photon production processes.

Study explores energy patterns in particle jets from high-energy collisions at LHC.

Investigating meson decays reveals insights into dark matter and matter-antimatter imbalance.

Research explores Higgs boson interactions and potential flavor violations in particle physics.

Exploring discrepancies in B meson decays and implications of charged Higgs boson.

Research sheds light on quantum shock waves in one-dimensional Bose gases.

Exploring the interactions of nucleons and their influence on atomic behavior.

Exploring the imbalance of matter and antimatter in the cosmos.

Researchers achieve experimental verification of the quantum SWITCH and its potential applications.

Researchers discuss potential new Higgs particles interacting with leptons.

Research reveals unique properties of Fermi gases with adjusted interactions.

Scientists enhance atomic interactions using partially-transparent mirrors, impacting quantum technology applications.

Researchers investigate flavor anomalies, hinting at physics beyond the Standard Model.

Scientists investigate how triquarks form and interact through different models.

Examining the impact of dissipation on topological phases and charge-ordering.

Research reveals how laser light can control tiny magnetic skyrmions.