Latest Articles for Experimental Physics

This study reviews weak decays and their implications for new physics.

Scientists study Majorana bound states using quantum dots for improved quantum computing.

Researchers examine the unique structures formed by electrons in strong magnetic fields.

Researchers improve quantum state transfer efficiency using a novel feedforward cancellation technique.

Research on heavy mesons produced from light nuclei interactions sheds light on gluons.

Exploring weak measurements in quantum mechanics through the double-slit experiment.

Recent findings reveal complex behavior in particle decay processes.

Enhancing methods to detect photon triplets amidst noise challenges.

Scientists seek evidence of a charged Higgs boson using data from particle collisions.

Learn how weak-value amplification improves detection of tiny changes in physical systems.

Researchers refine methods for evaluating qudit gate performance in quantum systems.

Research into the Rodeo Algorithm enhances predictions in quantum mechanics.

A look at jet quenching and its relevance in quark-gluon plasma studies.

Research reveals insights into spin entanglement in two-proton emission from beryllium-8.

Exploring the fascinating behaviors of composite fermions and the CFL state.

Investigating how neutrinos interact with matter through various experiments.

This article discusses quantum control of oscillators using Kerr-cat qubits and their implications.

A detailed look at superconducting qubits and their measurement processes in quantum computing.

Discover how pile-up collisions contribute to particle physics studies at the LHC.

Research on the Collins-Soper kernel and TMDs improves our understanding of quark behavior.

Learn how waveguides enhance control over qubits for quantum technology.

A look at the unique properties and potential applications of quantum droplets.

This study reveals time-symmetric properties in open quantum systems despite environmental influences.

Research on charged vacancies in ferroelectrics opens new avenues for technology advancement.

Research at LHC investigates flavons and their link to top quarks.

A look into how charges behave in high-energy physics through one-point correlators.

Research on ultracold atoms reveals new phases of matter and particle interactions.

Exploring the properties and potential applications of flat-band solitons.

Scientists analyze quark and gluon contributions to proton spin through advanced techniques.

Exploring the potential of Majorana particles in quantum computations.

Exploring the methods and challenges in controlling quantum systems for technology applications.

This study examines turbulence in fluid flow between two rotating spheres.

Research reveals crucial interactions between neutrinos and neutrinophilic mediators.

New method traps tiny particles using specialized light patterns.

This article explores how strong confinement influences the dynamics of superfluid order parameters.

Analyzing how top and bottom quark masses influence Higgs boson production.

Researchers investigate minimal dark matter and vector particles to uncover dark matter's nature.

A method for efficient verification of entangled quantum states.

Explore the world of electric and magnetic charges and their interactions.

Researchers aim to uncover new particles and explore supersymmetry in future experiments.