Latest Articles for Scientific Collaboration

Belle II enhances studies on B mesons and seeks new physics insights.

Upgrades to hybrid circuits enhance data collection at the LHCb detector.

Scientists aim to create chemical tools for every druggable human protein by 2035.

In-network storage caches enhance data access for global scientific projects.

MicroBooNE experiment measures radon decay rates in liquid argon, ensuring reliable results for future studies.

Scientists propose innovative sensors to enhance dark matter research.

A look at improving the sharing of molecular dynamics simulation data.

The ITS3 upgrade will enhance particle tracking and data collection at CERN.

Researchers search for lepton-flavour violation in particle collisions at a major facility.

This research examines how spin and OAM influence proton behavior.

Goran Lindblad's contributions shaped quantum mechanics and inspired future generations of physicists.

New findings on quark interactions expand our understanding of particle physics.

Particle identification is crucial for upcoming collider projects.

Examining the impact of NLP tools on materials science and reproducibility.

Prometheus aids in neutrino data simulation and collaboration among scientists.

A personal account of key experiences in perovskite research with Alex Müller.

A study of particle decay times using data from the LHC.

Ongoing experiments aim to locate the elusive QCD critical point in particle physics.

Recent studies delve into the magnetic properties of the positive muon and its anomalies.

ATLAS collaboration achieves remarkable accuracy in measuring the Higgs boson mass.

KinFit enhances particle measurement accuracy in hadron physics experiments.

LISA aims to detect gravitational waves from double white dwarf systems and nearby galaxies.

The ARA project aims to detect ultrahigh energy neutrinos from cosmic events.

This article details the efficiencies of electrons and photons in LHC experiments.

Gammapy advances analysis of high-energy gamma rays for researchers worldwide.

VODF aims to standardize data sharing in very-high-energy astronomy for better collaboration.

Researchers use positron beams to investigate the elusive nature of dark matter.

Researchers enhance Baikal-GVD's accuracy by utilizing atmospheric muon tracks for calibration.

MRPC3b development enhances particle detection for future experiments.

A new experiment aims to find axions and advance dark matter research.

AI tools like BIA are transforming data analysis in bioinformatics.

This study reveals unique features of supernova SN 2016adj in Centaurus A.

Research on bnAbs paves the way for effective vaccines against RNA viruses.

Advancements in QED calculations enhance the accuracy of particle physics experiments.

Exploring the significance of gravitational waves and pulsars in cosmic studies.

CASSISjuice simplifies access to Spitzer Space Telescope data for researchers.

Researchers are enhancing methods to detect dark matter particles using innovative systems.

DESI plays a crucial role in understanding galaxy redshifts and cosmic expansion.

Teams competed to predict the impact of ARSA gene variants for better health outcomes.

A workshop aims to improve software citation practices in high-energy physics research.