Latest Articles for Experimental Physics

Researchers improve detector efficiency for dark matter and rare event studies using new technology.

This experiment investigates Born's rule using atom interferometry and Bose-Einstein condensates.

Improving measurement precision in physics using squeezed states in atom interferometers.

A look into the unique properties of spin-imbalanced Fermi gases.

Digital SiPMs enhance photon detection and particle tracking in high-energy experiments.

A look into how scientists study the inside of planets through innovative experiments.

New methods improve capturing microwave photons for quantum networks.

Examining the first radial excitations of baryons reveals insights into particle physics.

Surface acoustic waves can effectively control magnetization dynamics in small magnetic disks.

Research enhances understanding of particle behavior in quantum gases involving defects.

Researchers examine particle behaviors and interactions using correlation functions at specific energy levels.

Examining how Higgs bosons interact with jets reveals insights into particle physics.

A study demonstrating universal quantum gates using Gottesman-Kitaev-Preskill codes in trapped ion systems.

A look at methods for analyzing time-varying signals in particle accelerators.

Research shows magnetic fields enhance the stability of quantum electron solids.

Exploring the effects of heavy-ion collisions on particle behavior and energy dynamics.

Investigating how interference affects Higgs boson pair production.

This study investigates hyperon yields in heavy-ion collisions and their transport mechanisms.

A proposed model aims to address key questions in particle physics.

This study examines how ions respond to microwaves, revealing key insights into their properties.

Examining the implications of proton decay within the framework of minimal SUSY GUT.

This study presents a new method for controlling bosonic qubits.

New measurements shed light on mesons and their decay processes.

Explore the complexities and implications of quantum non-locality in current research.

This research advances modeling of turbulent flows in rotating systems.

Explore bistable elements and their impact on memory and computation.

This article examines novel methods to detect elusive Higgsino dark matter.

A novel method enhances control of quantum systems through flexible pulse management.

This article examines how heavy quarks interact with glasma in high-energy collisions.

This study presents a unified model for understanding hadron scattering behavior across energy levels.

Investigating the stability of quantum systems under random changes and external forces.

A new method improves boson sampling efficiency with cold atoms and squeezed light.

Examining particle behavior in heavy-ion collisions sheds light on the early universe.

Exploring the mysteries of dark matter and neutrino masses in particle physics.

Exploring the unique features of the 6/13 state in quantum physics.

Research reveals complex states of hadrons, urging experimental verification.

Key methods for measuring how close quantum states are to desired outcomes.

Examining nucleon decay offers insights into fundamental physics and the matter-antimatter imbalance.

Research sheds light on anyon behavior in fractional quantum Hall states.

A proposed theory offers fresh perspectives on particle interactions and flavor puzzles.