Physics - Instrumentation and Detectors

Learn how active seismic isolation systems improve gravitational-wave detection.

New findings address challenges in silicon-based UV detectors for space missions.

NASA's AXIS mission aims to improve X-ray astronomy technology for better cosmic observations.

XOC X-ray Beamline enhances detector technology for future space missions.

SiSeRO technology boosts X-ray detection sensitivity for future astronomical missions.

LAPPDs offer fast and precise photon detection for various scientific applications.

Learn how trigger systems filter and manage data in particle physics experiments.

TIM uses advanced detectors to observe star formation in challenging cosmic environments.

A new machine learning approach improves data quality monitoring in particle physics.

Exploring the performance of silicon sensors in radiation environments.

New tracking method promises to improve efficiency at the Large Hadron Collider.

DAMIC-M project aims to detect light dark matter through advanced technology at LSM.

Silicon Photomultipliers enhance light detection accuracy across various fields.

A new camera system enhances optical calibration for next-gen neutrino telescopes.

Investigating advanced neutrino telescope designs to improve detection methods.

Innovative devices improve laser control techniques for various scientific applications.

Enhancing interpretability of machine learning models in plasma diagnostics for better insights.

New sensor technology improves detection and timing for high-energy particle experiments.

Student-led project creates affordable solar panels for CubeSats, boosting accessibility.

Study of rare particle events using advanced detection techniques.

A new experiment in Brazil detects antineutrinos to monitor reactor activities.

A new gas photodetector improves time resolution and counting rate for particle detection.

Learn about the innovative approach of magnetic particle imaging in medical and materials research.

Study reveals how bacteria adhere differently to surfaces based on stiffness.

This study examines factors affecting superconducting nanowire single-photon detectors performance.

A new spectrometer makes ESR accessible and customizable for researchers.

JUNO aims to shed light on neutrinos' mysteries through advanced data processing techniques.

Levitated micro-objects offer precision in measurements and sensing tasks.

Exploring the role and importance of SNSPDs in technology and science.

This study examines how positively charged kaons interact with argon in high-energy experiments.

LUXE investigates light and matter under high electric fields to study particle creation.

Research highlights the effects of Higgs mode and impurities on superconductors.

CERN upgrades beam stoppers to boost safety and efficiency for high-energy particle beams.

Liquid scintillators are essential for detecting ionizing radiation and particles like neutrinos.

New methods enhance magnetic field measurements in various scientific fields.

TUCAN experiment aims for unprecedented precision in neutron electric dipole moment measurements using advanced magnetometry.

Scientists investigate dark photons to understand the nature of dark matter.

A study on neutrinos for safe reactor monitoring.

New resonator design enhances axion search sensitivity by reducing mode mixing.

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