Latest Articles for Experimental Physics

Exploring the nonlinear Schrödinger equation and its implications for matter waves.

This article discusses how memory effects shape quantum systems' interactions and their importance.

A look into noise behaviors in quantum Hall systems under temperature gradients.

Study of NV centers offers insights into quantum technology applications.

Innovative device amplifies signals in one direction while blocking interference.

Researching particle decay to test existing theories and seek new physics.

This paper discusses detecting chirality in twisted bilayer graphene through experimental methods.

Researchers investigate axion-like particles using data from MiniBooNE and ArgoNeuT experiments.

New magnetism type blends features of antiferromagnets and ferromagnets.

Examining the interplay of Majorana modes and electron interactions in quantum systems.

Exploring the significance of anisotropy in the behavior of Weyl semimetals.

Research explores trident production processes in high-energy electron interactions with crystals.

Research uncovers the potential of Townes solitons in advanced optical applications.

Researchers study exotic particles and their decay processes for new insights.

Research highlights potential exotic states in particle physics.

New methods improve the purity and control of photon pairs for quantum applications.

Analyzing how eta and eta-prime mesons behave during various decay processes.

This article discusses a new approach to simulating plasma turbulence using gyro-moments.

Machine learning enhances material simulations, combining experimental and computational data.

An overview of neutron resonances and their significance in nuclear physics.

Researchers introduce an innovative protocol for accurately estimating bosonic Hamiltonians.

Recent neutron experiments reveal insights into quantum measurement and reality.

Exploring the subtle differences between two types of neutrinos and the implications of recent theories.

Scientists investigate tetraquark particles to reveal their unique properties and internal structures.

Exploring the properties and decay of mesons in the universe.

Explore how waveguide arrays control light behavior for various applications.

Innovative methods to enhance the accuracy of X-ray spectrum measurements.

Learn how quantum information diodes manage quantum data flow using magnons.

Researching particle behavior during heavy-ion collisions and the freeze-out process.

Introducing a flexible method for certifying two-qubit quantum systems with minimal assumptions.

Explore the behavior of currents in three-terminal Josephson junctions and their applications.

Leptoquarks offer potential solutions to unresolved issues in particle physics.

A breakthrough method enables real-time monitoring of quasiparticle parity in superconducting devices.

Examining the connection between Parton Branching and Collins-Soper-Sterman frameworks in high-energy collisions.

Researchers address position measurement issues in particle accelerators using Wake Field Monitors.

Research on heavy-ion collisions reveals insights into baryon-rich matter and particle interactions.

Belle II investigates tau leptons to uncover new physics beyond the Standard Model.

Research reveals how bilayer graphene reacts to periodic driving forces, leading to dynamical freezing.

Research on expanding BECs reveals insights into particle creation and quantum entanglement.

Researchers study electromagnetic properties of charmed baryons, revealing complex structures.