Latest Articles for Oscillation

Learn how high-energy neutrinos reveal secrets of the universe.

A new method enhances stability in min-max optimization processes.

Exploring brightness changes in binary stars during close encounters.

A new method uses data to stabilize fluid flow past a cylinder.

Examining how neutron stars emit gravitational waves through matter impacts.

Researchers develop a new way to analyze gravity-mode pulsators for better stellar insights.

A study of V-flames reveals their complex dynamics and stability factors.

Study reveals how laser light alters with gold nanorods.

An overview of boundary-value problems and the method of fundamental solutions.

Solar neutrinos provide vital clues about the sun and fundamental particles.

Examining the critical roles of cAMP and Ca2+ in cellular communication.

Study examines how injection conditions influence electron transport in Hall thrusters.

JUNO aims to study neutrinos and their mass ordering using data from nuclear reactors.

New research focuses on complex magnetic fields within red giant stars and their effects.

A look at how harmonic analysis helps researchers study stars and their oscillations.

Examining how feedback magnetic fields change magnetization dynamics for advanced technologies.

Neutron stars offer insights into extreme physics through their unique oscillations and structures.

A new method enhances signal analysis by separating jumps and oscillations.

This article explores the behaviors of filaments influenced by external forces.

Investigating the potential existence of sterile neutrinos through IceCube DeepCore data.

New experiments and proposals aim to deepen our knowledge of neutrinos and their behavior.

Uncovering the role of neutrinos in the universe's structure and behavior.

A look at how networks maintain function despite aging and disruptions.

Lato-lato, a toy, combines skill, physics, and social interaction for endless fun.

Study of Doradus stars unlocks insights into stellar evolution and internal structures.

Investigating boson behavior in a double-well potential reveals insights into classical and quantum physics.

Researchers study lasting oscillations in quantum Ising chain models after rapid changes.

Exploring the dynamics of orbits in a three-body scenario using pendulum models.

Examining how magnetic activity influences sound wave heights in stars.

Scientists use nuclear interferometers to detect ultra-light dark matter through unique atomic transitions.

Exploring superfluid currents and heating in neutron stars.

Active solids change shape and movement, impacting diverse fields like robotics and medicine.

A closer look at bulk viscosity's role in neutron star mergers.

Exploring how water droplets mimic quantum particle behavior through diffraction.

Exploring how ancient solutions reveal shape behaviors over time.

Discover how timescales enhance the understanding of physics through hands-on learning.

Scientists reveal new findings about star behavior, challenging previous assumptions.

A new approach to enhance accuracy in hyperbolic conservation laws using jump filters.

Investigating heavy neutrinos could change our understanding of the universe.

Examining collective neutrino oscillations and misconceptions affecting their simulations.