Latest Articles for Experimental Physics

Examining the role of soft quarks in Higgs boson production at particle colliders.

Researchers develop HNLCalc to study heavy neutral leptons and their significance in particle physics.

Exploring soliton behaviors in two-dimensional fermionic superfluids and their implications.

Exploring inelastic dark matter and its potential impact on the universe.

An overview of the principles and challenges of wormhole teleportation in quantum mechanics.

Exploring how information spreads in quantum systems using quantum computers.

A novel approach enables better modeling of long-range interactions in quantum systems.

A look into nonlocality and its implications for quantum technologies.

Exploring how holography enhances understanding of composite Higgs models in particle physics.

ILC aims to uncover the mystery of baryon violation and its impact on our universe.

Researching complex behaviors in two-band superconductors reveals new insights into phase slips.

A look into the unique state where gases behave like solids.

A look into the properties and transitions of quark matter in extreme conditions.

This research explores how quarks and gluons shape proton properties using Generalized Parton Distributions.

New methods aim to speed up particle collision simulations using machine learning.

Discover how many-body localization challenges traditional thermalization concepts in quantum physics.

A new method combines quantum sensing and deep learning for accurate state measurement.

Researchers manipulate optical lattices to study topological properties for future technologies.

Examining triangle singularities and their impact on particle behavior and isospin breaking.

This article discusses the left-right asymmetric model and its implications for neutrinos.

Studying long-range interactions reveals new dynamics in quantum systems under continuous monitoring.

New methods enable detection of superradiant phase transitions in light-matter systems.

Researchers refine models to improve understanding of dimuon production from neutrino-nucleus collisions.

A new detector aims to probe unexplored areas of particle physics.

This paper examines the crucial role of gauge fixing in quark measurements.

A study of how different quark flavors impact transverse momentum distributions.

Research introduces a device for efficient nonreciprocal signal routing in quantum technology.

A look into the intriguing properties of pseudospin density waves in 2D electron systems.

This article discusses experiments focusing on soliton gas in a wave tank.

Innovative method improves measurement of bosonic modes affected by noise.

Using machine learning to improve laser light coupling into optical fibers.

A fresh approach to analyze particle collisions for new physics insights.

This article discusses Kondo and Quantum Zeno effects in monitored quantum dots.

Exploring the unique properties of non-Abelian Hopf-Euler insulators in condensed matter physics.

A look into the thermodynamics and properties of quantum gases.

This study examines the transitions in atomic nuclei, focusing on isoscalar and isovector contributions.

Study reveals how temperature influences entanglement in Rydberg atom arrays.

The SBC-LAr10 project enhances detection techniques using liquid argon and xenon.

This study investigates how radiation impacts transmon qubits in varying environments.

Research reveals new properties of skyrmion lattices in magnetic materials.