Latest Articles for Scientific Research

Researchers are enhancing atomic manipulation using laser light and advanced techniques.

This study combines RV and astrometric data to better determine exoplanet masses.

Learn about the complexities of causation in quantum mechanics.

A reliable method for estimating plant genome sizes using frozen samples.

A faster method to analyze input impacts on model outputs.

Exploring the benefits of split-preconditioned FGMRES in mixed precision computing for efficient solutions.

Researchers use neutrinos to investigate the elusive nature of Dark Matter.

Scientists investigate multi-charged particles to deepen our knowledge of particle physics.

HyperINR speeds up implicit neural representations for clearer scientific visualizations.

Investigating the equivalence principle through black hole observations.

A look into how protons and neutrons are organized in atomic nuclei.

A look at dark matter and its potential connection to scalar fields.

A straightforward neural network predicts initial universe conditions effectively.

Recent improvements to the YFS method enhance particle collision simulations and predictions.

A new tool enhances study of jets in heavy-ion collisions and quark-gluon plasma.

Researchers use machine learning to detect unusual jets and find new particles.

Machine learning techniques enhance precision in laser pulse parameter estimation for attoscience.

Researchers explore new models to address conflicting measurements of the Hubble constant.

A deep learning model streamlines peak detection in X-ray crystallography experiments.

TAS-Paths improves safety and efficiency in spectrometer motion planning.

A novel method improving particle collision event reconstruction using graph neural networks.

Deep learning techniques improve classification of noise in gravitational wave signals.

New methods enable spacecraft to find positions using pulsars and magnetars.

This article explores the dilaton's potential role in dark matter.

The LSST will help discover and study smaller interstellar objects beyond our solar system.

Research unveils new methods for precise quantum measurements using light.

Scientists study energetic causal sets to rethink the universe's foundations.

Researchers propose early dark energy as a solution to the Hubble constant disagreement.

FixFit method streamlines model parameters for better scientific insights.

New algorithm improves efficiency in simulating quantum jumps in complex systems.

A new method efficiently solves complex distance problems in biology.

Innovative techniques improve the creation of phylogenetic networks from tree data.

An overview of quantum nonlocality and its relevance in technology and physics.

A new approach to MultiExp Gaussian quadrature improves integration accuracy in electronic structure calculations.

Exploring how fractional calculus reshapes our view of cosmic expansion and age.

A new approach improves predictions of molecular properties using machine learning.

Learn how Ensemble Slice Sampling improves statistical sampling methods in complex models.

Discover how Photon Field Networks transform volume visualization with speed and clarity.

The DESI survey studies galaxies to deepen our knowledge of dark energy and matter.

A new method improves speed and efficiency in quantum error correction.