Latest Articles for Experimental Physics

Study examines electroweak boson pair production in proton-proton collisions.

Research enhances predictions for particle collisions using gluon beam functions.

A look into the Sauter-Schwinger effect and its implications for physics.

Analyzing the stability of pulse solutions in the Swift-Hohenberg equation.

Exploring axions and axion-like particles in relation to fundamental physics.

Analyzing dineutrinos from proton collisions to explore new physics interactions.

Research focuses on heavy particles decaying into Higgs bosons at the LHC.

Study measures particle interactions and searches for exotic states in collisions.

Researchers develop a simpler way to measure quantum entanglement using ECD gates.

A look at the roles of pions and rhos in particle interactions.

Exploring the effects of scarring and antiscarring in quantum systems.

Understanding the impact of radiative effects on SIDIS experiments.

Examining Higgs boson decay into three particles and their quantum entanglement.

Scientists investigate particle and entropy movement in fermionic superfluids far from equilibrium.

Scientists investigate lepton flavor violation for insights into new physics.

Insights into light-electron interactions at high energies and strong fields.

Quantum backflow reveals unique behaviors of particles in confined spaces.

Exploring the unique features of periodically driven non-Hermitian systems.

High-powered lasers can disrupt gas jets, causing EMP emissions and nozzle damage.

Scientists investigate superfluid helium as a way to detect Majorana fermions.

Research highlights potential of RuPSiO in quantum magnetism.

Researchers work on techniques to maintain quantum entanglement despite environmental losses.

Exploring a unique theory in particle physics that connects fundamental forces without supersymmetry.

Investigating quarkonium from proton collisions reveals details about gluon behavior.

Study reveals behaviors of Bose-Einstein condensates in a double well potential.

Exploring the significance of electric dipole moments in particle physics and symmetry violations.

New theories and experiments improve understanding of light in multimode fibers.

Researchers control quantum behaviors using Rydberg atoms in a synthetic lattice.

This study explores weak decays of mesons, offering new predictions and understanding of particle interactions.

Research reveals new insights into Majorana zero modes in nanowires.

Research unveils the effects of mass imbalance on three-body interactions.

Researchers study Higgs extensions to reveal new particles and interactions.

This study uses lattice QCD to explore kaon mixing beyond the standard model.

A new interferometer system enhances detection of gravitational waves with reduced noise.

This article examines how heavy-light mesons decay and their significance in particle physics.

A new simulator aids in visualizing charge states in quantum dot systems.

Researching efficient ways to optimize graphs using neutral atom arrays in quantum computing.

This article discusses techniques for extracting particle beams in accelerators.

Research focuses on how noise affects entangled quantum states.

Research into fractional-charge particles may change our view of fundamental forces.