Latest Articles for Experimental Physics

Research reveals how laser light can control tiny magnetic skyrmions.

A study reveals insights into entanglement properties using quantum simulations.

Exploring how noncommuting charges affect thermalization in quantum systems.

Investigating the role of hadronic vacuum polarization in the muon's magnetic moment.

COSINE-100 experiment fails to detect boosted dark matter signals after extensive research.

Examining the unique dynamics of ultracold dipolar Fermi gases.

New superconducting diodes improve efficiency and control in electronics.

A look at an alternative model for particle mass generation without the Higgs boson.

Investigating axions and their effects in unique quantum materials.

Scientists investigate leptoquarks to explain unexpected particle decay results.

A look into dipolar Bose polarons and their unique interactions in two-dimensional systems.

Examining autoionization and exceptional points reveals dynamic interactions in quantum systems.

Researchers investigate supercurrent behavior in novel nanowire Josephson junctions.

Investigating the Zee-Babu model to understand neutrinos and their mass.

A new method for measuring quantum system positions using a quantum ruler.

Research reveals complex behaviors of three-particle arrangements in thermal gases.

Research focuses on heavy neutrinos and their effects on particle behavior.

New strategies aim to uncover the secrets of long-lived neutralinos and their implications.

Research highlights the nonlocal Josephson effect in superconducting devices.

Exploring the significance of quantum coherence for advancements in technology.

Examining how weak values influence measurements in quantum systems.

Research reveals unique electron arrangements in twisted bilayer MoTe, showing novel states.

This article examines phase shifts in hybrid planar Josephson junctions in magnetic fields.

New techniques improve control of qubits, reducing errors in quantum computing.

Recent findings enhance our knowledge of top quarks and their interactions.

New insights into the magnetic properties of Sr(TiO)Cu(PO) revealed through advanced methods.

New methods improve predictions for quarkonium production in high-energy collisions.

Researchers aim to understand the role of quarks and gluons in nucleons.

Research reveals insights into magnetic materials through advanced spectroscopy techniques.

Explore the fascinating interactions of neutrons and protons in scattering experiments.

Exploring the complexities of parity violation and its implications in particle physics.

Research reveals unique electronic phases in topological insulators using light and magnetic doping.

Researchers reveal ordered phases in high-temperature superconductors, challenging existing theories.

Introducing a method to measure entanglement without direct detection of both qubits.

Researching neutrino behavior helps uncover fundamental physics and cosmic mysteries.

Study on electron layers reveals impacts of distance on phase behavior.

Exploring the significance of EDMs in charm baryons and their connection to CP violation.

Exploring glueballs and the pomeron in understanding strong interactions.

A new method enhances photon energy reconstruction in particle experiments.

This article explores the transition from superfluid to supersolid states in dipolar Bose-Einstein condensates.