Latest Articles for Experimental Physics

Examining the behavior of atomic nuclei under extreme temperatures and densities.

Researching proton structure using polarized electron beams in the resonance region.

A study on Sivers asymmetry in particle collisions involving charged Kaons and hyperons.

Researchers reveal unexpected behaviors in quantum systems beyond equilibrium states.

Research on YbPtBi reveals unique electron behavior under pressure and temperature.

Examining unique correlations in quantum triangle networks and their implications.

The NA62 experiment investigates rare particle decays and dark photons to understand dark matter.

Study reveals how surface vibrations affect helium atom scattering patterns.

New CMOS system enhances particle detection during high-power laser experiments.

Scientists study ultracold atoms' interactions in unique ring traps and their implications.

Research highlights role of left-hand cuts in understanding exotic particles.

Examining NMR's role in understanding unique properties of superfluid helium-3.

Researchers investigate an axial vector meson to uncover its mysterious properties.

Mid-circuit measurements improve quantum processor reliability and efficiency.

Research reveals unexpected behaviors in electron-hole pairs in quantum Hall bilayers.

This study investigates energy loss in photon-tagged jets during lead-lead collisions.

This article explores hidden attractors and their impact on system dynamics.

A look into the study of axial vector mesons and their properties.

Research reveals new methods for creating atom pairs important for quantum technologies.

A look into the N2HDM and its potential implications in particle physics.

Scientists investigate dark matter and neutrinos to answer fundamental questions about the universe.

Researchers propose a new model to explain recent boson mass anomalies.

Study reveals important insights into ultracold atom interactions.

This research examines Lorentz invariance violation using three major neutrino experiments.

A look at axions and neutralinos as dark matter candidates in SUSY models.

A look into isospin symmetry's role in understanding particle decays.

A look into how localization affects quantum computing measurements amid noise.

Research explores controlling light emission using nanoantennas and rare earth ions.

Exploring jet fragmentation processes and Tsallis distribution in high-energy collisions.

Research proposes spin pumping to enhance the study of TBG's properties.

Researchers refine decay rate estimates for hidden scalar particles and pions.

Research highlights Bell correlations and their significance in quantum technologies.

New models improve detection of dark matter and neutrino interactions.

A look into the Zee model and its implications for neutrinos.

Scientists investigate axions as potential candidates for dark matter in the universe.

A look into how heavy quarks produce fewer particles during collisions.

A novel approach to convert GHZ states and W states using three atoms.

Recent improvements to the YFS method enhance particle collision simulations and predictions.

Researchers achieve first direct observation of neutrinos at particle colliders, expanding physics understanding.

A look into the study of D-wave charmed baryons and their significance.