Latest Articles for Oscillation

Exploring how living materials convert energy into motion through columnar structures.

New model mimics biological patterns using neural networks without external input.

A new scheme enhances accuracy in simulating extreme astrophysical events.

Research reveals periodic energy changes in magnetar X-ray bursts.

This study examines neutron star oscillations for insights into their internal structure.

Research on cross stars reveals insights into matter under extreme conditions.

A new model enhances decision-making under delayed information for multiple agents.

A look into how neurons interact and the implications for brain disorders.

Using neural networks to solve challenging equations with sudden changes.

A new method streamlines the analysis of stellar vibrations for better insights.

Neutrinos change flavors as they travel, revealing secrets of the universe.

Research reveals how NV centers track domain wall dynamics in ferromagnetic materials.

A study on the behavior of oscillating functions through analysis of functionals.

Researchers detail methods for constructing initial data of binary boson stars.

Research reveals new insights into sunspot magnetic fields and shock wave interactions.

Study reveals how GPe neurons change firing patterns in Parkinson's disease.

Research reveals how light influences Bose-Einstein Condensates, showing unique quantum behaviors.

Researchers explore new methods to measure neutrino masses and their implications.

Investigating how oscillations affect defect formation during phase transitions in quantum systems.

Examining how periodic forces impact energy dynamics in a spring-linked mass system.

A look into the mechanics of the chiral knife edge rattleback and its spin behavior.

This study focuses on brain networks and their oscillatory behaviors through the Wilson-Cowan model.

New research at Yemilab aims to clarify solar neutrino behavior.

New findings on CoRoT-102314644 shed light on hybrid star behavior.

Discover the unique properties and behaviors of neutrinos in particle physics.

Exploring the complex relationships between predators and prey in ecology.

ASJ2055 reveals new insights into stellar interactions and oscillations.

Examining how lattice sampling can improve wavelet representation.

Study reveals impact of cross-phase modulation on 2D spectroscopy outcomes.

Acoustic levitation uses sound waves to lift and analyze small objects.

Coupled nanomagnets could reshape future computing with innovative designs and structures.

Study shows how center of mass affects cylinder movement in fluid dynamics.

Explore the significance of distributive phosphorylation in cellular processes.

Researchers study heavy neutrinos to understand their role in particle physics.

An overview of Békollé-Bonami weights and their significance in mathematics.

A look at innovative electronic clocks using energy efficiency and precision in timekeeping.

Research on neutrinos reveals their ability to change types, challenging our understanding of physics.

An exploration of the fascinating mechanics behind inverted pendulums and their stability.

Neutrinos play a key role in understanding fundamental physics and cosmic events.

New models improve predictions for neutrino interactions in particle physics.