Latest Articles for Oscillation

Exploring the behavior of charged particles in strong electromagnetic fields and their equilibrium.

Microbubbles enhance medical imaging, drug delivery, and cleaning through unique oscillation behaviors.

Exploring how organisms maintain internal stability amid external changes.

A look into how temperature affects fluid behavior and flow dynamics.

Research on axions and gravitational waves could reveal secrets of the universe.

A look into the stability of hybrid stars and the effects of phase transitions.

Exploring how past events shape the fission process in atomic nuclei.

Neutrinos provide new insights into Earth's layers and density using the ICAL detector.

New insights into the behavior of K2BS5, a distinct type of dwarf nova.

Researchers study Majorana zero modes for advanced quantum computing applications.

Research uncovers hidden magnetic fields affecting red giants' internal structures and evolution.

This study examines how nutrient availability affects ribosome production and degradation.

Study reveals the dynamics of coronal bright points and their oscillations.

New artificial neurons based on Bose-Einstein condensate show promise for advanced AI applications.

Scientists uncover the mysteries of the Universe through the study of neutrinos.

This article examines the dynamics of atom-molecule condensates and their experimental implications.

Research reveals how mechanical signals impact our internal biological clocks.

Research reveals new insights on coronal loops and their dynamics.

The PLATO mission aims to deepen our knowledge of stars and exoplanets.

Study reveals how ion currents influence neuron firing patterns in the hippocampus.

Memristors mimic brain function, advancing artificial intelligence and neuromorphic circuits.

This article explores elliptic equations and their significance in various fields.

Research on droplets reveals how living materials respond to their environments.

Examining the behavior and interactions of gas bubbles in changing liquid conditions.

Scientists explore invisible neutrino decay through DUNE and T2HKK experiments.

New insights reveal complex behavior of molecular clouds in the Radcliffe Wave.

Explore the fascinating behavior of bubbles in viscous fluids.

New experiments aim to study neutrinos and their properties.

New modeling techniques improve our understanding of stellar oscillations and properties.

Researchers create artificial cells to study action potentials and neural behavior.

A new method reduces artificial sound waves in fluid flow simulations.

This study investigates the motion of particles in a fluid that oscillates back and forth.

Recent advances improve wave directionality and reduce energy loss.

Calcium oscillations are vital for cell function and response.

A look at the FitzHugh-Nagumo model and its relevance in various fields.

Examining the oscillations and significance of accretion disks near neutron stars.

Exploring wave dynamics in special systems reveals insights into biological behavior.

A new architecture improves machine speech recognition using spiking neural networks.

Exploring complex behaviors in slow-fast and ghost cycle systems.

Explore the fascinating evolution of stars after a supernova explosion.