Latest Articles for Experimental Physics

Researchers search for hidden-photon and axion dark matter signals.

Researchers study how cold atomic gases behave under different conditions.

New measurements of Higgs boson production from high-energy collisions provide key insights.

Noise in quantum systems can create useful light, challenging traditional views.

New research reveals unique behaviors of surface electrons in topological insulators with fractal dimensions.

Research using top quarks to shed light on matter-antimatter imbalance in the universe.

Research reveals unique superconductivity characteristics in ultrathin FeSe films layered on SrTiO.

Recent experiments advance our understanding of charm and beauty particles in flavour physics.

Researchers study entangled particles to reveal secrets of quantum mechanics and gravity.

Examining the properties and behaviors of quantum droplets in optical lattices.

Research reveals persistent non-Gaussian correlations in Rydberg atom systems after significant changes.

Investigating how electrons interact with nucleons reveals insights about quarks and gluons.

This article explores the role of right-handed neutrinos in SMEFT and their implications.

Study how quantum walks reveal complex particle behavior in quantum systems.

Examining unique behaviors in quasiperiodic systems and their implications.

An overview of quark masses and their significance in particle physics.

Research combines models to better describe neutrino interactions with atomic nuclei.

Exploring the significance of gluon production in high-energy physics.

Exploring the unique properties of TmVO near quantum critical points.

Exploring the behavior of twisted electrons in magnetic fields reveals important insights.

Researchers are modifying neutrino mixing models to align better with experimental data.

Research highlights the promise of SnV centers for quantum computing.

Research reveals how light can manipulate superconducting states for advanced technologies.

Research reveals unique properties of hyper-honeycomb Cu oxalate framework.

A discussion on confirming quantum systems using measurement outcomes.

A new method to assess quantum devices amidst unpredictable behavior.

Research aims to detect axions and magnetic monopoles using high voltage capacitors.

A look into the role of spin in fluid dynamics, especially in extreme conditions.

Research investigates charm production in high-multiplicity proton collisions at the LHC.

Study reveals insights into matter-antimatter imbalance through particle behavior.

Scientists study dipole condensates to reveal new physical phenomena.

This article explores pion decay's role in identifying potential new particles.

Research on Rydberg atoms could transform quantum computing and energy efficiency.

Neutrinos change flavors as they travel, revealing secrets of the universe.

Examining quantum phases in spin-1 Bose-Einstein condensates under specific conditions.

This article explores how high-energy photons interact in ultra-peripheral collisions of lead nuclei.

Studying xenon's EDM could shed light on matter-antimatter asymmetry.

Investigating dark photons could reveal secrets about dark matter and our universe.

Examining how speed and temperature affect memory system reliability during erasures.

Research on DTN reveals unique magnetic transitions under applied pressure.