Latest Articles for Experimental Methods

Research on neutron yields aids in minimizing background noise in rare event detection.

Scientists enhance energy measurements using dual-readout techniques in particle physics.

A method to determine solid shapes inside tanks through liquid level changes.

Research on neutron-rich helium hyper-isotopes reveals their unique properties and structures.

Learn how new methods enhance weight-ensembling in machine learning.

Examining photon interactions to improve particle collision models at colliders.

New methods refine constitutive models for soft materials using statistical techniques.

Techniques like manifold learning help scientists interpret large datasets effectively.

This article explores weak values and their time derivatives in quantum physics.

Research shows promise in efficient light transformation for quantum communication.

Scientists reconstruct four-dimensional proton phase space using one-dimensional measurements.

Research on how variable properties affect beam vibrations in engineering applications.

Research investigates massless dark photons using data from particle collisions.

A look into the ongoing debates surrounding arrival times in quantum mechanics.

An overview of neutron skin and its role in nuclear reactions and astrophysics.

A new method speeds up material phase study using active learning.

Research on charge radii helps refine our knowledge of nuclear properties and interactions.

Exploring heat flow in insulating states of graphene under unique conditions.

Researchers establish tighter limits on rare kaon decay events after extensive analysis.

This method helps researchers find efficient designs in complex problem spaces.

This study examines jet mass distributions in Z+jet events at the LHC.

A look into methods for identifying potential new particles in particle physics.

Research uncovers new energy states in potassium isotope K-40, challenging existing models.

Recent studies shed light on isospin breaking and its effects in particle physics.

This study explores how pions scatter using advanced simulation techniques.

Scientists study semileptonic decays to test theories and look for new phenomena.

Kolya aids researchers in analyzing semileptonic decays of mesons efficiently.

Researchers achieve precise values for scattering lengths and effective ranges in particle physics.

New methods improve energy measurement in liquid argon time projection chambers for particle physics.

A look into how pions reveal the mysteries of the strong force.

Scientists investigate muons to challenge existing physics concepts and discover new insights.

Scientists investigate how molecules react in optical cavities influenced by ambient noise.

Exploring the behavior of halo neutrons and their effects on atomic decay.

Discover the significance of neutron skin thickness in understanding atomic nuclei.

Scientists investigate muons to uncover fundamental physics insights.

A look into the chaotic world of quantum turbulence and its unique behaviors.

Exploring how crosstalk affects the study of electron behavior.

Examining the significance of symmetry in understanding quantum systems.

Discover how the occlusion process enhances sampling efficiency.

Scientists study fast-moving electrons to understand particle behavior and the ATOMKI anomaly.