Latest Articles for Scientific Experiments

Investigating how electron capture decay influences measurements of cosmic rays.

PJMIF aims for efficient nuclear fusion through innovative plasma jets.

A new algorithm boosts data processing efficiency at the LHCb experiment.

New experiments aim to study neutrinos and their properties.

TPOT enhances particle tracking in the sPHENIX experiment at RHIC.

A look into why hot water can freeze faster than cold water.

IsoDAR project aims to study electron-antineutrinos for new physics insights.

Research delves into dark matter detection using advanced machine learning techniques.

ANAIS-112 reveals no evidence supporting dark matter signals reported by DAMA.

Research improves cooling and trapping of potassium isotopes for scientific experiments.

Insights into edge behavior and benefits of negative triangularity in plasma research.

CMB-HD experiment enhances insights into dark matter through precision lensing techniques.

JUNO aims to measure neutrino masses through precise energy detection.

CROSS experiment enhances detection of rare nuclear decay events.

This article examines low-temperature calorimeters in the quest for dark matter.

Scientists investigate WIMP interactions to shed light on dark matter's mysteries.

Research on the Migdal effect using advanced detection techniques.

A look into SBND's efforts to detect and study neutrinos.

Researchers enhance neutrino energy estimates using deep learning techniques.

XENONnT experiment investigates WIMP interactions with xenon atoms to uncover dark matter.

KATRIN experiment measures neutrino mass with unprecedented accuracy.

Research explores Schrodinger cat states in quantum systems within nanocavities.

A new balloon experiment aims to investigate the cosmic microwave background and its polarization.

Research shows promise for qudits with noise suppression techniques in quantum computing.

Fermilab enhances its neutrino research capabilities through advanced technology and upgrades.

Research reveals complexities in laser interactions with plasma affecting energy production.

The NEON experiment investigates light dark matter using nuclear reactors and sensitive detectors.

KATRIN enhances neutrino mass research using a new setup to reduce background noise.

A scientific effort to detect a rare particle decay process.

A new method improves ptychography image quality and speeds up reconstruction.

Debate continues over the validity of signals from the DAMA/LIBRA experiment.

Research on QC-modes in plasma sheds light on fusion energy dynamics.

Exploring key concepts and implications of the Stern-Gerlach experiment in quantum physics.

Scientists aim to find dark matter using muon interactions at CERN.

LZ experiment investigates dark matter and rare physical phenomena deep underground.

An exploration of how measurement choices affect particle behavior.

Scientists study unique singlet scalars and their interactions in particle physics.

New techniques in cooling particle beams may enhance future light sources.

New methods improve how experiments are designed and evaluated across various fields.

RFSoC shows promise for Belle II upgrades after magnetic field testing.