Latest Articles for Experimental Physics

Exploring quasiparticle behavior in superfluid helium-3 near two-dimensional boundaries.

Examining particle behavior during proton-proton collisions at 13 TeV.

An overview of chirped solitary waves and their significance in technology.

Researchers examine how twisted graphene impacts superconducting states and electron behavior.

Exploring the potential existence and impact of hidden photons in the universe.

Study reveals insights into hole dynamics within antiferromagnetic materials.

New methods in quantum metrology improve measurement precision using indefinite causal order.

A look into how neutrinos might gain mass through the neutrinophilic Two-Higgs Doublet Model.

Research examines momentum and particle abundance in high-energy collisions at LHC.

Efficiently manipulating magnetization in CrI monolayers offers new storage technology potential.

Research reveals insights into neutron interactions with liquid ortho-deuterium.

Investigating the muon puzzle in extensive air showers from cosmic rays.

A new compact microwave diode enhances signal control in quantum devices.

Recent findings from ANTARES and IceCube advance neutrino research and non-standard interactions.

Strategies for minimizing noise in MKIDs to enhance measurement accuracy.

Research reveals behavior of spin waves in moiré structures influenced by twist angles and magnetic fields.

Investigating CP violation to understand the universe's matter-antimatter imbalance.

Examining how groups of atoms emit light together.

Exploring the production of Higgs boson pairs and their implications in particle physics.

New method shows potential for efficient positron beam acceleration.

New insights into magnon bands and their complex interactions in magnetic materials.

Study of nuclear modification factors reveals insights into extreme matter conditions.

Research reveals methods for controlled particle movement in quantum systems.

New arrangement of cavities reveals unique behaviors in quantum systems.

Research shows evidence for off-shell production of the Higgs boson using collision data.

Examining the unique properties and applications of non-Hermitian Weyl semimetals.

Researchers study tiny particles for advances in technology and measurement.

ANCs help us understand nuclear reactions in stars and element formation.

New algorithms improve real-time identification of collision points in particle physics.

Research unveils new behaviors of superfluid edge dislocations in solid helium-4.

A look into electroweak interactions and their implications for particle physics.

New insights into particle decays challenge current lepton universality concepts.

An overview of Rayleigh-Bénard convection and its influencing factors.

Research enhances understanding of beta decay and isospin-symmetry breaking.

Research demonstrates quantum interference using photon pairs generated 70 meters apart.

A look into the fascinating Casimir effect and its implications in quantum physics.

Heavy quarks are vital in understanding the quark-gluon plasma and conditions of the early universe.

Research focuses on the hidden-charm strange pentaquark and its formation via antikaon collisions.

This study explores models for neutrino mass and their implications.

Exploring interactions of quantum droplets with impurities reveals new physics.