Latest Articles for Scientific Research

New methods improve analysis of overlapping gravitational wave signals.

Recent findings shed light on the atmospheres of two distant exoplanets.

Recent studies challenge LK-99's potential for room-temperature superconductivity.

Learn how to identify separable states in quantum systems and its importance.

A new method addresses challenges in network reconstruction using time series data.

Calibrating EIS ensures accurate measurements of solar activity.

Research on X17 particle reveals exciting insights into nuclear physics.

Study assesses language models' ability to find evidence in scientific abstracts.

A look into how energy operates at small scales in quantum thermodynamics.

Research reveals crucial details about polarization in fast radio bursts.

The BINGO Project studies the Universe through Fast Radio Bursts with a unique telescope.

Research on rare events faces challenges from background noise and uncertainty.

LCLS-II-HE upgrades utilize machine learning for precise optical alignment and enhanced X-ray experiments.

Investigating how gravity influences quantum systems and the quest for quantum gravity.

A look into how quantum gravity handles complex concepts like divergences.

rFOM and srFOM improve efficiency in matrix function operations with recycling and sketching.

A software package for studying materials' electronic structures through simulations.

Learn how barocaloric materials can transform cooling technology through entropy changes.

Introducing a multi-representation approach for better understanding scientific literature.

A study on wave propagation in dispersive materials for engineering applications.

An overview of displacement vectors and their significance in mathematics.

Research highlights the impact of laser imperfections on high-order harmonic generation.

Exploring different ideas about how the Universe began and evolved.

Scientists investigate anomalies and the potential existence of new particles.

Research combines techniques to improve measurement accuracy using spin-squeezed states.

Researchers achieve precise control over laser light color through temperature adjustments.

Discover how waves help us gather precise information about objects.

Bell inequalities shed light on quantum physics and entangled states.

Research on ultra-light dark matter reveals potential avenues for detection.

A reliable timing signal improves neutron experiments at TRIGA Mainz reactor.

A look into observational entropy and its impact on quantum measurements.

Researchers develop faster ways to study galaxy distributions and their interactions.

New imaging technique improves precision in spectroscopy by reducing Doppler broadening effects.

A new program streamlines the analysis of SEM images for nanoparticle detection.

Scientists control wave behavior in microwave billiards using adjustable surfaces.

A look into dynamic nuclear polarization and its role in quantum technologies.

A new tool improves clarity in fluorescence imaging through background inversion.

Examining how liquid droplets merge and their implications in various fields.

Scientists link entangled particles over 101 kilometers, pushing quantum network boundaries.

New experiment aims to clarify proton structure measurement issues.