Latest Articles for Experimental Science

Research into dark matter interactions reveals potential connections to neutrinos.

Scientists investigate braneworld theories to redefine our understanding of gravity.

BESIII reveals new insights into light mesons and their interactions through precise data collection.

Exploring recent anomalies in particle physics and their implications for new discoveries.

Scientists seek to understand dark matter through advanced detection methods and theoretical models.

Investigating whether the Higgs boson is a fundamental or composite particle.

New mathematical models enhance our view of DNA's intricate shapes.

Scientists seek to explore the implications of charged dark matter on physics.

Recent findings challenge previous theories on light's effect on cold atoms.

An overview of quantum correlations and their practical implications.

Scientists study positronium for breakthroughs in medical imaging and fundamental physics.

A study on rare events, convergence, and feedback control in nanoparticle systems.

A new method improves dataset transformation using normalizing flows.

A study examines dark gauge bosons and their role in dark matter.

Study of light behavior in complex systems with changing properties.

Research reveals how dark matter interacts with crystal structures, providing new detection strategies.

An overview of gravitational redshift and its implications in modern physics.

Investigating neutrinos at the LHC offers insights into fundamental forces and cosmic happenings.

This article examines quintuplet dark matter and its potential signals in the universe.

This article examines long-lived states shaped by random constraints in quantum systems.

XENONnT experiment pushes boundaries in dark matter research with innovative electric field design.

Researchers enhance muon detection efficiency using innovative scintillation strip technology.

Exploring key factors in compound nucleus formation during heavy-ion collisions.

CERN's ALICE experiment enhances particle tracking with new sensor technology.

Analyzing interactions of an exotic neutral vector boson in particle physics.

Enhancing molecular behavior predictions through improved potential energy surfaces.

Investigating how gravity influences quantum entanglement and particle behavior.

Researchers investigate neutrinos' properties using dark matter detection experiments.

An overview of unpredictable behavior in interacting quantum systems.

Learn how power corrections improve accuracy in particle collision predictions.

Scientists investigate phase changes in matter using particle collisions at CERN.

Research reveals complex behaviors of neutral plasma with long-range interactions.

An overview of wave-particle duality and its implications in quantum physics.

Scientists investigate axion dark matter and its impact on the quantum Hall effect.

This article examines the complex behavior of magnetic pendulums influenced by magnetic fields.

New experiments aim to uncover details about neutrinos and fundamental forces.

This paper presents a fresh approach to analyzing neutrino interactions using superscaling.

Researchers study how oscillating mass may affect the equivalence principle and dark matter interactions.

A new method improves atom array setups for quantum computing.

Study examines how noise and signals impact Rydberg atoms' collective jumps.