Latest Articles for Scientific Research

Analyzing GPT-NeoX and LLaMA models for materials science applications.

A look into how black-body radiation impacts the accuracy of optical clocks.

This article examines new techniques for simulating light in particle physics.

New algorithms enhance detection of primary vertices at the Large Hadron Collider.

Two innovative techniques enhance metabolite identification and false discovery rate estimation.

A new tool for analyzing copy number variations in genetic research.

A new technique enhances atomic magnetometers for precise magnetic field measurements.

Research reveals how specific proteins aid spinal cord regeneration in Xenopus.

Researchers enhance cosmic structure analysis through innovative data compression techniques.

New methods enhance precision in particle physics calculations and address challenges.

Recent research reveals new measurements of pion form factor and implications for muons.

Researchers investigate flavour-changing neutral currents in proton collisions at the LHC.

An analysis of ParticleNet and LCFIPlus for jet flavor identification at CEPC.

Enhancing haloscope performance through volume expansion and innovative designs.

Insights into quark-gluon plasma dynamics through particle flow analysis.

This paper discusses a method to reduce false positives in data analysis.

Lamarr improves particle collision simulations, enabling LHCb to handle larger data volumes efficiently.

Examining how length is redefined in noncommutative spaces.

Yemilab aims to advance neutrino studies with advanced detection technology.

Scientists enhance detection of gravitational waves using advanced gamma-ray pulsar methods.

New techniques enhance parameter identification in complex systems using adaptive methods.

AI is transforming scientific research, enhancing data analysis and discovery.

Researchers study Majorana zero modes for advanced quantum computing applications.

A new laser amplifier design offers high energy and stability for various applications.

A new approach to dynamic inverse problems using Ensemble Kalman Inversion.

JUNO employs new software tools to streamline neutrino research and data analysis.

CERN scientists measure interactions between top and bottom quarks, challenging existing theories.

New measurements reveal insights into particle interactions and states.

POEMMA aims to study cosmic rays and neutrinos from powerful cosmic events.

Research on muon behavior reveals significant differences from theoretical predictions.

Examining vulnerabilities and safety strategies for LLM-powered scientific agents.

Research at Belle II sheds light on elusive axion-like particles.

Exploring updates in muon behavior and the Hidden Local Symmetry model.

Investigating particle behavior in time-dependent quantum systems.

A new method aims to enhance output quality in generative models.

A look at how HII regions help measure the Hubble constant.

This study highlights improvements in geometric models, focusing on expressiveness and completeness.

Researchers examine B-meson decays to deepen our grasp of particle interactions.

New methods improve wave modeling accuracy and applications in various fields.

Rhenium decay offers insights into the elusive mass of neutrinos.