Latest Articles for Experimental Physics

Our research enhances photon indistinguishability, vital for quantum computing applications.

A look into models explaining neutrino masses and lepton number violation.

Hyperon decays provide insights into particle interactions and potential new physics.

Combining generative models and maximum likelihood estimation enhances detector calibration precision.

Exploring how large spins bridge quantum and classical physics.

A fresh look at quantum mechanics through operational invariance and objective principles.

Exploring the complexities of charge-parity conservation in particle physics.

Researchers improve Kerr-cat qubits, enhancing reliability for future quantum computers.

Research reveals challenges in enhancing two-photon absorption using entangled photon pairs.

Examining how counterfactual effects challenge classical views in quantum mechanics.

Research sheds light on ultralight dark matter and its interactions.

Researchers analyze spin helices' behavior affected by immobile holes in one-dimensional models.

Examining the role of Canonical and Grand Canonical Ensembles in BEC phenomena.

Two-dimensional materials are reshaping device technology with their unique properties.

Understanding CP violation sheds light on matter-antimatter imbalance in the universe.

This study looks at how small particles move in stretchy fluids under force.

Examining how axions may alter Casimir pressure in quantum physics.

A spintronic device matrix enhances control of Majorana zero modes for quantum computing.

Simplifying quantum state measurement with cyclic tight techniques for improved accuracy.

This article covers the search for light dark vectors and their significance in understanding dark matter.

Examining the NMSSM's implications for dark matter and experimental findings.

A fresh measurement method offers a better understanding of memory effects in quantum systems.

Research on mesons and their production through photon-induced nuclear interactions.

Photonic metastructures manipulate light for advanced technologies in communication and sensing.

A look at how DIS helps reveal valence quark distributions in protons and neutrons.

Scientists study fractonic matter using Rydberg atoms to explore unique phase transitions.

Exploring how measurements influence disorder in quantum systems and their implications.

This article examines the production of pseudoscalar Higgs bosons with jets.

Study explores conditions for circular rolls in rotor-stator flow dynamics.

An overview of wobbling motion in triaxial nuclei and its significance.

Chirping techniques enhance the precision of measuring light interaction with two-level systems.

Scientists investigate lighter and heavier Higgs bosons, revealing potential new physics.

Researchers enhance single-photon state analysis using machine learning techniques for better accuracy.

This article examines fractional quantum Hall states and their implications.

A look into how three particles interact in quantum mechanics.

Examining how laser light affects coherence in atomic gases.

First measurement of charge noise in superconducting qubits conducted underground.

New method allows precise control of quantum behaviors using machine learning.

New findings show disorder increases Curie temperature in LaCrGe, defying expectations.

Scientists detect top quark pairs in proton-lead collisions at the LHC.