Latest Articles for Experimental Research

Discover how FeSe exhibits surprising negative longitudinal magnetoresistance.

Dive into the fascinating behavior of exotic nuclei and their stability.

Discovering the secrets of hadrons through Double Deeply Virtual Compton Scattering.

Learn how spin squeezing improves measurement precision in quantum physics.

Dive into the world of nuclear fission and its intriguing spin characteristics.

Discover how Bayesian Amplitude Estimation enhances quantum computing accuracy amidst noise.

New methods improve neutrino detection using neutron tagging with Gadolinium.

Discover how light can turn materials into superconductors.

Learn how atmospheric noise affects atom interferometers and the strategies to overcome it.

Dive into the fascinating world of tetraquarks and their properties.

Researchers uncover new behavior of particles in two-dimensional materials.

Scientists develop new methods to control topological charges in quantum materials.

Discover how microwave experiments reveal molecular behavior and dynamics.

Dive into the mysteries surrounding charmonium and its intriguing properties.

Discover how classical objects relate to the strange behavior of quantum particles.

Understanding chiral symmetry and its role in particle mass through advanced experiments.

Discover how superconductors are reshaping quantum technologies.

A deep dive into flavor physics and the HVM model.

Explore the fascinating roles of hydrogen and antihydrogen in physics.

Discover how MoTe/WSe heterobilayers showcase unique electronic behaviors and transitions.

Scientists aim to uncover long-lived particles using beam-dump experiments in China.

Discover how transposable elements impact evolution and genetic diversity.

Discover the intriguing science behind the Casimir effect and its implications.

Delving into the complex behaviors of quantum matter and their implications.

Research on Bose-Einstein condensates reveals links to wormhole theory.

Investigating particle behavior in high-energy collisions to understand the universe.

Scientists chase true muonium, a rare particle with big implications for physics.

A deep dive into the fascinating world of toponium and particle interactions.

Investigating Drell-Yan processes could reveal new particles and forces.

Researchers are uncovering secrets of long-lived particles in particle physics.

Ultracold molecules offer a unique look into quantum behaviors and properties.

Researchers reveal insights from high-energy particle collisions.

Unraveling the mysteries of hybrid baryons and their role in particle physics.

Discover the strange behavior of fermions and their role in quantum mechanics.

A deep dive into charmed mesons and their significance in particle physics.

Researchers analyze particle distributions to learn about the early universe's matter.

Discover the unique properties of neutron-rich nuclei and their surprising behaviors.

Unraveling the mysteries of axions and their role in dark matter.

Discover how Bose-Einstein condensates reveal particle creation in an expanding universe.

Scientists explore complex interactions between lasers and electrons, revealing intriguing patterns.