Latest Articles for Experimental Physics

New insights into how quantum systems interact with designed environments.

Research uses Bayesian methods to explore neutron-proton interactions in nuclear physics.

A new model connects quantum gravity with Heisenberg's modified uncertainty principle.

Polarized hyperon-antihyperon pairs help uncover essential questions in particle physics.

This article examines superconductivity and the Yukawa-SYK model's role in understanding materials.

This study examines axions and their impact on electromagnetic fields.

Research reveals improved efficiency in quantum heat engines using Liouvillian exceptional points.

A look into the interaction of quantum and classical systems.

An overview of quantum droplets and their interactions with potential wells and barriers.

A look into the interaction between gravity and quantum mechanics.

Research reveals new perspectives on nucleon interactions and pair dynamics.

A look into heavy-ion collisions and the formation of Quark-Gluon Plasma.

Studying charmonium reveals key aspects of quark-gluon plasma formation and behavior.

Twisted bilayers like WSe reveal exciting superconducting properties and electron interactions.

Exploring entanglement behavior in finite-dimensional quantum systems.

A look at how boundary conditions affect thermal convection and heat transfer.

A study of how laser light can change magnetic properties in materials.

Experiments show unexpected results in superconductors, raising concerns about external influences.

Scientists use thin walls to detect elusive hidden photons linked to dark matter.

Examining how gas displaces liquid reveals complex patterns and practical applications.

Exploring the mysteries of neutrino mass and their implications for particle physics.

Researchers study complex behaviors in three-terminal Josephson junctions and Andreev bound states.

Study reveals insights on tantalum films and their impact on superconducting quantum devices.

New techniques boost the fidelity of beamsplitters for better quantum operations.

Study reveals frictional forces on atoms near perfectly conducting plates.

A simple setup offers insights into ion beam current distribution.

A novel approach to tunneling spectroscopy improves detection of Majorana zero modes.

A look into the unique vortex structures of FeSe superconductors.

Accurate measurement of argon purity is crucial for reliable experimental results.

Research examines fluid dynamics using three-component Bose-Einstein condensates.

An overview of superconductivity in twisted graphene and its unique properties.

This study examines how flexible chains move in thick liquids.

Researchers manipulate discrete-time quantum walks using random changes for varied movement patterns.

Study reveals superconducting properties of Nb Ta S at low temperatures.

Scientists investigate hypothetical leptoquarks using data from the LHC.

Learn about the methods and importance of testing quantum systems.

Exploring the sensitivity of vibrating wires for accurate temperature measurement in superfluid helium.

Researching experimental black holes to study Hawking radiation in controlled settings.

New insights into skyrmions could improve data storage technologies.

Research on superconducting diode effect reveals new possibilities for electronics.