Latest Articles for Scientific Collaboration

A new framework helps scientists improve exoplanet climate predictions.

Research focuses on Higgs boson pair production and its implications for particle physics.

New methods enhance the reliability of GEMs for biological research.

Research on antihydrogen sheds light on gravitational behavior and fundamental physics.

HuBMAPR simplifies data access for researchers studying human biology.

Exploring recent developments in open data within neuroscience research.

Researching antideuterons could reveal insights into the nature of dark matter.

Accurate dissociation energy values are crucial for understanding stellar elements and their abundances.

A look into the nature of Hot QCD matter and its significance in physics.

Large language models assist researchers in generating innovative biomedical hypotheses.

A new resource for studying Extended Dark Matter Objects and their characteristics.

Investigating rare particle decays to uncover potential new physics beyond the Standard Model.

Scientists investigate axions to uncover dark matter’s mysteries and advance physics.

Exploring latest findings about the Higgs boson and top quarks at the LHC.

A method to better understand errors in quantum gates for improved computing reliability.

Recent study sheds light on Higgs boson interactions with top quarks.

PandaX-4T aims to detect solar B neutrinos and explore dark matter.

Overview of the ECR panel's activities and developments throughout 2023.

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

Scientists study pentaquarks, unique particles made of five quarks, to learn about their properties.

Q-gen streamlines the process of generating quantum circuits for researchers.

Researching the properties and behaviors of atmospheric neutrinos with advanced detectors.

CryoBench helps enhance cryo-EM method evaluation with diverse datasets.

Research at the Pierre Auger Observatory reveals patterns in cosmic ray arrival directions.

A closer look at hadronic vacuum polarisation and its role in particle physics.

The MSHT group shares new insights on Parton Distribution Functions and their impact on particle collisions.

ALPS II experiment seeks light particles to uncover mysteries of dark matter.

Researchers investigate muon anomalies to advance particle physics theories.

ARA aims to detect ultrahigh energy neutrinos and shed light on cosmic events.

Scientists create a detailed atlas of the mouse brain for better research.

AI is transforming how researchers create virtual cells to study biological processes.

High energy physics researchers are optimizing software for diverse computing resources.

Researchers establish tighter limits on rare kaon decay events after extensive analysis.

Sherpa helps astronomers analyze and fit data effectively.

Research reveals interactions between charm and strange dibaryons through lattice QCD methods.

The SST-1M telescope aims to advance gamma-ray astronomy through innovative design and technology.

Scientists investigate dark photons to uncover universe's mysteries.

Scientists push boundaries in axion detection, shedding light on dark matter.

An overview of massless chiral fields and their significance in theoretical physics.

A study on creating uniform testing standards for accurate COVID-19 diagnostics.