Latest Articles for Experimental Methods

This study presents methods to refine motion models using detailed experimental data.

Exploring charge interactions and phases in one-dimensional lattice gauge theory.

This study investigates isospin symmetry breaking in mirror nuclei, focusing on the Thomas-Ehrman shift.

This study presents a method to measure the weight of ultra-cold atoms for antimatter research.

Photocleavable biotin offers a safer way to reset surfaces for experiments.

A novel way to adjust cholesterol levels in liposomes for protein studies.

A look into di-hadron systems and their significant interactions.

Researchers improve reliability testing of one-shot devices using innovative statistical methods.

Tartrazine’s effectiveness in making live tissues transparent faces significant barriers.

Research on absorber materials enhances terahertz spectroscopy for cosmic microwave background experiments.

Exploring the effects of antiproton annihilation in different materials.

Research aims to measure weak charge and mixing angle with high precision.

Research focuses on improving light output in nanocomposite scintillators for particle detection.

Nuclear PDFs are crucial for understanding quarks and gluons in atomic nuclei.

Researching how the Higgs boson interacts with electrons through spin asymmetries.

Scientists study nucleons to learn about their internal composition and behavior.

Examining how half-shell components affect nuclear reaction behavior and predictions.

Researching how targeted brain stimulation affects brain dynamics and treatment possibilities.

Research sheds light on rare decay modes of charmonium particles.

Silicon Photomultipliers enhance light detection accuracy across various fields.

Researchers are enhancing target production methods with a new plating technique.

Research on mesons reveals insights into their behavior within atomic nuclei.

An overview of baryons, their electromagnetic form factors, and current research findings.

Research reveals how realistic inputs affect neuron characteristics and responses.

A novel approach improves detection of new particle physics signals efficiently.

Examining how photons interact with quantum dots for advancing technologies.

This study examines how concave particle shapes influence granular flow in rotating drums.

Heavy-ion collisions provide insights into the Quark-Gluon Plasma and nuclear matter.

This research sheds light on semileptonic decays and charm quarks using BESIII data.

Investigating the Two-Higgs-Doublet Model and its implications in particle physics.

Recent methods improve insights into partons' behavior and structure in protons.

Discover how active learning optimizes experiments in biological research.

This study highlights CAFQA's role in enhancing VQE outcomes on quantum devices.

Research reveals important findings on low-energy deuteron fusion, impacting clean energy.

Investigating the unexpected signals in low-energy semiconductor detectors.

Examining how particle size affects quantum interference and measurements.

Scientists pursue the synthesis of element 119, uncovering new aspects of nuclear physics.

This method improves the understanding of soft materials like hydrogels through bubble dynamics.

Recent data inconsistencies challenge claims on superconductivity in hydrogen-rich materials.

New method enhances accuracy in placing tiny gold droplets for material studies.