Latest Articles for Experimental Research

CuD's unique properties reveal insights into quantum magnetism.

Study reveals insights into particle jets and fundamental forces in nature.

Examining the effects of magnetic fields on lambda hyperon polarization in collisions.

Researchers study how jets behave in high-energy nuclear collisions and their interactions.

Investigating tau neutrinos and their interactions to reveal fundamental physics.

Research reveals novel polariton behavior in perovskite double microcavities with potential applications.

This article discusses advancements in understanding nucleon interactions in nuclear physics.

Researchers offer a new way to measure topological entanglement efficiently.

Research reveals properties of beryllium and helium hypernuclei through advanced models.

Research on polarized deuterons reveals details about gluons and nucleon interactions.

Research reveals how temperature impacts the X(4630) resonance and exotic hadron behavior.

Examining the role of beam focusing in understanding plasma turbulence for fusion research.

An overview of the control system essential for ultracold atom experiments.

High-power femtosecond lasers enable new material interactions and scientific breakthroughs.

Researching semileptonic decays provides essential knowledge about quark interactions and fundamental forces.

COSINE-100 has successfully reduced its detection threshold, improving dark matter research.

Research reveals significant insights into RaF's ionization potential and molecular properties.

Researchers target the gauge-Higgs coupling to deepen particle physics insights.

A look into how Thouless pumps control particle movement through unique properties.

Recent techniques aim to improve energy measurement in particle collisions.

Research on the singly charged scalar singlet may address gaps in particle physics.

A technique to enhance gravitational wave detection using dynamic optical systems.

A look into the complex behaviors of geometrically frustrated magnets.

Researchers investigate muon anomalies to advance particle physics theories.

This study reveals how floating magnets form organized clusters under various conditions.

Researchers investigate multi-gap topological phases using quantum rotors under periodic driving.

Research on dielectrons reveals key insights into matter behavior in extreme conditions.

This research sheds light on how partons behave in polarized nucleons.

Exploring methods to create hyperentangled states using atoms for quantum applications.

New findings reveal key insights into particle interactions through strong-phase differences.

This study examines the Geometric Binder Cumulant for analyzing polarization in materials.

Examining charm quark effects in B-meson decay processes for better physics insights.

Research sheds light on how charge radii relate to neutron-rich nuclei.

Researchers study superheavy dark matter and right-handed neutrinos to explain cosmic mysteries.

This study reveals how cells maintain movement despite barriers.

A new method improves laser frequency stability for various scientific applications.

Explore how quantum systems switch between states without heat.

Research on atomic arrangements reveals insights into quantum phases and interactions.

This article examines techniques to analyze helium nuclei scattering data.

Examining the Ne Mg reaction's role in neutron generation within stars.