Latest Articles for Experimental Physics

Discover how scientists study baryon decay and the tools used in particle physics.

Scientists hunt for axion-like particles that may reshape our understanding of the universe.

Learn how quantum memory stores and retrieves information faster and more efficiently.

New silicon pixel detectors improve particle detection speed and accuracy.

Scientists study how collisional scattering impacts molecular Bose-Einstein condensates in optical lattices.

Innovative strategies improve high-dimensional quantum state measurements.

A deep dive into the complexities of flavor physics and the CKM matrix.

A look into how particles interact through Quantum Chromodynamics.

Explore the complexities of particle interactions and decay processes in physics.

A look into how Effective Field Theory simplifies particle interactions.

New research shows how spatially entangled photons can resist disturbances.

A deep dive into the impact of two-photon exchange in particle physics.

Discover how nuclear mediums affect pseudoscalar mesons and their interactions.

This article highlights the latest innovations in quantum photon generation using lithium niobate.

Explore the fascinating world of particle interactions and electroweak forces.

A simple look at how high-energy collisions create hadrons.

NA62 experiment investigates elusive kaon decays to reveal new physics.

Scientists examine lepton behaviour, confirming existing physics theories with new data.

Discover the unique synchronization in rotating supersolids and its implications.

Unveiling the intricate world of quarks and gluons within protons.

Dive into the discoveries of exotic particles and their unique properties.

Discover the role of pions in the universe and their impact on nuclear forces.

A look into nucleons, their structure, and interactions with electromagnetic fields.

Explore how high-energy particle collisions reveal the secrets of matter through DIS.

New methods to study gluon jets reveal insights into fundamental forces.

Uncovering the significance of the Higgs boson through Effective Field Theories.

Researchers at CERN achieve new precision in measuring W boson mass.

Dive into the mysterious world of neutrinos and their role in particle physics.

Integrating machine learning to find new particles in physics research.

Exploring quantum field theories through advanced simulations and large-spin models.

A deep dive into the fascinating interactions of light and atoms.

Scientists investigate axions using superconducting materials in groundbreaking experiments.

Discover the unique behaviors and properties of phase crystals in superconductors.

Discover the fascinating world of chiral magnon condensates and their potential.

Discover how scaling entropy connects particles and energy in high-speed collisions.

A dive into the significance of electroweak corrections in particle physics.

Learn how scientists estimate phases in quantum systems through innovative methods.

Tantalum films are promising for superconducting qubits, despite some microwave loss challenges.

Discover the science behind impressive water jets created by falling spheres.

Discover the link between gravitational waves and Higgs inflation in our universe.