Latest Articles for Experimental Methods

Research explores dijet production and non-eikonal corrections in high-energy particle collisions.

Discover the latest findings in attosecond science and its quantum implications.

A deep dive into UTe's unique superconducting properties and challenges ahead.

Study reveals key factors influencing the vibrations of clamped thin plates.

Study reveals key interactions in nuclear photoproduction and their implications for nuclear physics.

Examining the issues and solutions in wavefront shaping experiments.

This study examines the behavior of large sprays in swirling air flows.

This study reveals how hydrogels interact and respond under various pressure conditions.

Learn about how cracks form steps in materials under stress.

New research refines the strong coupling constant using improved data analysis methods.

Rare particle decays offer insight into fundamental physics and the behavior of matter.

Research reveals unique properties of eight-color chiral spin liquids in magnetic materials.

Quantum coherence plays a vital role in emerging technologies and communication systems.

This article examines how trajectory-based theories improve insights into quantum flight times.

A methodical approach to minimize uncertainties in aircraft design through simulations and experiments.

A look into double beta decay and its significance in nuclear physics.

Explore the fascinating behavior of vortices in superfluids within optical lattices.

A new method shows promise in accurately measuring fluid movement in complex systems.

Research reveals links between gas density and background noise in ATLAS.

New experiments aim to improve muon neutrino mass measurements, shedding light on fundamental particles.

A new method to improve optimization in uncertain systems using few trials.

TbSi and TbSiGe exhibit unique magnetic behaviors useful for cooling technology.

A look into spiral patterns formed in spherical Couette flow and their significance.

This study examines the momentum contributions of quarks and gluons in pions and kaons.

Research reveals how strong interactions affect particle behavior in ultracold atomic systems.

CUPID-Mo aims to find signs of new physics through rare decay events.

A straightforward look at turbulent flow and its significance in fluid dynamics.

Researchers study Indium-115 decay to learn about weak interactions and neutrinos.

Research enhances understanding of nickel isotopes' nuclear properties through advanced techniques.

New methods boost efficiency in analyzing experimental data in astroparticle physics.

This article discusses the model for analyzing background noise in CUORE's measurements.

Discover how quantum non-classicality challenges our understanding of causality.

This article examines how mosaic crystals affect X-ray measurements in high-energy systems.

New method improves understanding of complex quantum states and systems.

An overview of molecular ultracold plasmas and their unique behaviors.

Researchers study particle collisions to reveal complex nuclear interactions.

Exploring how isotropic tensor fields reveal properties of amorphous solids.

Exploring the significance of trapped magnetic moments in type-II superconductors and their applications.

This study examines how U-shaped disks move in thick liquids.

Investigating the significance of magnetic moments and their impact on particle physics.