Latest Articles for Scientific Collaboration

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.

Examining the future challenges of event generators in high-energy physics.

MicroBooNE releases neutrino interaction data sets to foster collaboration and innovation.

Research explores particle decay linked to dark matter using advanced techniques.

Exploring the benefits and challenges of open quantum hardware in technology development.

Foldit players enhance protein models, advancing scientific research quality.

A comprehensive catalog that advances galaxy research through multi-wavelength data.

A new method combines computer predictions and human expertise to identify better dielectric materials.

This article discusses new methods for calculating weak decays and addressing related challenges.

The AMoRE-pilot phase sheds light on rare decay processes and neutrino properties.

Combining VLBI and STIX techniques to enhance clarity in astronomical images.

This article explores how spinning particle beams improve stability in accelerators.

Research improves electron beam quality using laser wakefield acceleration methods.

New open-source solutions enhance fluorescence microscopy accessibility for researchers.

A new framework enhances understanding of fundamental particles and their interactions.

MALBEC aims to unify methods for studying exoplanet atmospheres through model comparison.

A study revealing the secrets of stars in our Milky Way.

This article explores the charge radius differences in various silver isotopes.

Examining LLMs' potential in enhancing neuroscience research predictions.

Scientists study rare particle decays to explore fundamental forces in the universe.

Scientists explore invisible neutrino decay through DUNE and T2HKK experiments.

New detectors may enhance our understanding of neutrinos and their interactions.

Research investigates top quarks and missing energy to probe Dark Matter.

AI agents enhance biomedical research by analyzing data and assisting scientists.

A faster method for metabolomics analysis enhances data processing and accuracy.

NuGraph2 enhances the study of neutrino interactions using advanced graph neural networks.

Scientists measure vector boson production in high-energy proton collisions at LHC.

New methods improve clarity of astronomical images affected by noise.

ATLAS leverages cloud resources to enhance data analysis and efficiency in particle physics.

Researchers reveal new constraints on spin interactions using advanced quantum sensors.

Research explores gluons' contributions to proton spin in particle physics.

A workshop discusses key findings in B meson mixing and its implications.

LukProt offers new insights into the evolution of animals and their relatives.

Recent findings enhance understanding of particle interactions and resonant structures.

Researchers investigated charmonium states, aiming to find new processes in specific energy ranges.

Research explores dark matter detection methods and theories using particle colliders.

RELICS investigates neutrinos using liquid xenon to reveal their elusive characteristics.

Researchers are using quantum algorithms to study electron behaviors in complex materials.

AOTF feature improves connections between targets and diseases for drug development.