Latest Articles for Experimental Physics

This study examines how baryons interact and form complex structures during scattering.

Discoveries in particle physics reveal unexpected spin alignments in high-energy collisions.

Research on antiproton interactions reveals crucial details about particle behavior.

Researchers use muon beams to explore dark matter mediators and their properties.

A look into the unique phase transitions of Weyl materials and their electronic properties.

Examining the relationship between neutrino masses and CP violation through the seesaw mechanism.

Exploring the role of trapped ions in simulating fundamental gauge theories in physics.

Fermilab's NuMI project advances neutrino studies with improved measurement techniques.

Examining particle interactions under supersymmetry with broken Lorentz symmetry.

Research into axions and vector-like quarks may illuminate dark matter mysteries.

New framework enhances understanding of particle emissions in collider experiments.

Researchers develop a method to prepare two optical cat states at once.

Research reveals insights into flat bands and topological properties in materials.

Study reveals complex behavior of magnetization in thin magnetic films at critical thickness.

Research explores entanglement management in ultracold dipolar atoms for quantum technology.

Exploring connections between dark matter and neutrinos through a proposed model.

A model linking warped extra dimensions to the Higgs boson properties.

Exploring the connection between axions and flavour violation in particle physics.

Research reveals effects of turbulence on quantum light transmission quality.

A study on how jets behave in quark-gluon plasma reveals key properties.

A novel approach reduces resources needed for multi-photon experiments by using time-bin encoding.

Exploring classical shadows for efficient understanding of complex quantum states.

A look at how generalized parton distributions reveal proton structure.

Discover how light bullets enhance communication efficiency in optical fibers.

Scientists investigate a new particle using the Large Hadron Collider.

A novel method to enhance particle detector simulations using efficient memory and fast processing.

Research on muon decay and its implications for particle physics continues to advance.

Study reveals unique defect patterns in long-range quantum systems undergoing slow transformations.

Studying the effects of impurities on fermionic matter waves in quantum systems.

Explore the intriguing behavior of neutrinos and their role in quantum physics.

Examining rapid divergence and instability in quantum states.

Solitons and frequency combs are crucial for advancing optical technologies.

Explore the interaction of light with plasmonic lattices for various applications.

Investigating how ellipsoidal particles move in fluids reveals surprising behaviors.

A new experiment aims to find mysterious axion-like particles and shed light on dark matter.

Scientists investigate FIPs to shed light on dark matter and particle physics.

Muon colliders offer high-energy insights into particle interactions and the muon-Higgs coupling.

Research enhances light emission from quantum dots for future technologies.

Introducing FMNLO, a new method for accurate jet fragmentation calculations.

Discovering methods to guide quantum states amid chaos.