Latest Articles for Experimental Research

Study measures boson production in proton collisions, enhancing our knowledge of particle physics.

Research on trapped ions reveals insights into their dynamics and interactions.

Exploring the creation of particle pairs from vacuum under strong electric fields.

New findings on THz magnons could enhance technology performance and speed.

Exploring the unique properties and applications of flat bands in light manipulation.

Study reveals first observations of semileptonic decays involving charm mesons.

Analyzing entanglement properties in Gaussian Boson Sampling experiments.

Researchers synthesized new materials with unique structures and magnetic properties using hydroflux.

Discover the unique properties of hybrid mesons and their implications in particle physics.

Recent research sheds light on vortices in supersolids and their unique properties.

Research examines how gravitational waves affect Bose-Einstein condensates at the quantum level.

Researchers reveal new constraints on spin interactions using advanced quantum sensors.

Exploring how external fields affect electron behavior in quantum dots.

Examining the role of entanglement in nuclear reactions and atomic structure.

Research explores flat bands and their effects using Rydberg atoms.

Study reveals behavior of disclinations during reconnection events in liquid crystals.

Research investigates graviton condensation using a novel room-temperature superconductor.

Researchers study particle collisions to identify six predicted -even states in charmonium.

Investigating nuclear matter reveals its behavior under extreme conditions, impacting astrophysics.

Research reveals how thickness changes superconductivity characteristics in 2H-NbS.

Researchers investigate four top quark events to uncover potential new physics.

A workshop discusses key findings in B meson mixing and its implications.

This article examines Gamow-Teller transitions in magnesium and oxygen nuclei.

This article explores the unique bouncing motion of bubbles under specific conditions.

Research reveals insights into particle behavior during collisions.

Examining the difficulties of measuring cosmic signals from the early universe.

Exploring methods to improve quench detection in superconducting cavities with superfluid helium.

Studying charmonium reveals insights into the strong force and particle interactions.

Recent findings enhance understanding of particle interactions and resonant structures.

A look into how particles move through materials and the effects of loss.

Investigating the complex magnetic behaviors of a hybrid copper sulfate material.

Recent experiments at a Chinese collider reveal significant particle interactions.

Researchers use light in cavities to alter superconductivity in materials.

Research reveals how rats estimate time using specific brain cell activity.

Research improves models of how quarks and gluons form hadrons in high-energy collisions.

Investigating the structure of nuclei through dijet photoproduction in unique collisions.

Discovering unique properties and potential applications of twisted bilayer graphene.

A new method improves experimental design for better battery data collection.

Exploring the potential existence of sterile fermions through neutrino interactions.

Research on quasiparticle cooling methods enhances quantum state preparation.