Latest Articles for Experimental Physics

Examining how particles emerge from high-energy proton-proton collisions.

Research highlights new methods for manipulating NV center states using electric fields.

New methods enhance speed and efficiency in analyzing particle collision data.

New insights challenge traditional views on measurement and hidden variables in quantum mechanics.

A look into the complexities of non-leptonic decays and their theoretical implications.

Examining how QED corrections impact particle decays and lepton interactions.

Managing superconducting cavities enhances particle acceleration performance.

Research reveals key aspects of exciton condensation in bilayer systems.

Exploring the role of pseudo-Nambu-Goldstone bosons in dark matter.

Nuclear PDFs are crucial for understanding particle interactions in colliders.

Recent measurements at LHCb examine lepton flavors for potential new physics.

New techniques aim to improve measurements of bottom quark interactions at future experiments.

A look at how spinons behave in magnetic fields within the XXZ model.

Research reveals efficient methods for preparing high-dimensional frequency entangled qudits in quantum technology.

Exploring axions and their impact on dark matter and fundamental physics.

Research on the Higgs boson reveals insights into mass and particle interactions.

Exploring the role of heavy quarks in particle physics and DIS experiments.

A look into how cold atoms form molecules through innovative trapping techniques.

Examining potential fifth forces arising from theoretical axions in particle physics.

Research demonstrates generating distant entanglement using innovative magnomechanical systems.

A novel neutron interferometer design enhances neutron-nuclear scattering length measurements.

Research reveals Lambda(1405) may consist of two nearby resonances.

A look into the internal structure of protons and the significance of GPDs.

Explore the intriguing behaviors and significance of neutral kaons in particle physics.

JUNO aims to deepen our knowledge of neutrinos and their properties.

Investigating the relationship between quantum metrics and Drude weight in bosonic materials.

COSINE-100 project finds no evidence for WIMPs, reshaping dark matter theories.

A look into the unique triple-Q state in layered materials.

Researchers explore unique properties of hyperbolic non-Abelian semimetals and their implications.

Scientists investigate high-energy neutrinos and leptoquarks to explore new physics.

Explore the role of pions in nuclear and particle physics.

Recent experiments suggest new physics beyond the standard model.

Studying heavy mesons reveals important information about matter and fundamental forces.

Scientists investigate new particles and interactions in charged-lepton flavour violation.

New measurements of W-boson mass challenge existing theories and open up research on new physics.

This article discusses using Fast Bayesian Tomography for analyzing quantum gate errors.

This study examines the creation of random potentials through dark states in ultracold atoms.

Exploring Floquet engineering and its impact on quantum computing techniques.

Investigating the Migdal effect and its impact on neutrino-nucleus interactions.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.