Latest Articles for Fluctuations

Calcium oscillations are vital for cell function and response.

Exploring atom number changes in Bose gases for technological advancements.

Research on four urns reveals unique non-equilibrium behaviors.

This article explores the behavior and decay of axial charge in chiral MHD.

Tidal disruption events reveal insights into accretion processes and variability dynamics.

This article examines how run-and-tumble particles behave in space.

A look at Ginzburg-Landau dynamics and their application in various fields.

A new method enhances stability in mechanical resonators, improving various device performances.

Exploring how holography enhances understanding of composite Higgs models in particle physics.

This study examines the timing of first passage events in classical and quantum processes.

Improving velocity measures enhances particle behavior simulations in various scientific fields.

Exploring how neuron models interact within complex systems over time.

This study investigates the rigidity of eigenvalues in random regular graphs amidst structural changes.

Exploring the behavior of liquid crystals during phase transitions.

New framework improves accuracy in Bayesian measurement with limited data.

Examining how past movements shape the behavior of particles in diffusion.

A look into the behavior of systems influenced by time delays and fluctuations.

Research reveals key behaviors of twisted bilayer WSe related to superconductivity and insulation.

This article discusses the workings of quantum Otto engines and the impact of measurements.

Study reveals how atom density and connections impact superfluid behavior.

Examining random movements on two chains reveals insights into system behavior.

A new model reveals how decision criteria can fluctuate over time.

A study on energy density fluctuations in a special gas over time.

Study reveals how microswimmers alter dynamics in active nematic systems.

A look into bosonic dark matter interaction and its implications for cosmic structures.

This research explores the interaction between optical solitons and quantum mechanics.

Exploring the role of fluctuations and entropy in small thermodynamic systems.

Exploring how distant particle interactions shape material behavior.

Research reveals insights on proton behavior during high-energy collisions.

Study reveals unique variability patterns in black hole X-ray binary IGR J17091-3624.

This article explores quantum chaos via correlation functions and various models.

A novel approach reveals insights into quantum systems using density patterns.

Exploring the surprising order behavior in physical systems, particularly Rochelle salt.

Examining electron behaviors in materials with Van Hove points and triplet superconductivity.

Scientists study matter formed in heavy-ion collisions to reveal its complex behaviors.

Research reveals the impact of fluctuations on biological systems like p53.

Recent findings reveal complex behaviors of protons in heavy-ion collisions.

Examining how hubs function in random networks and their impact on overall dynamics.

Research sheds light on black holes and their interactions with fundamental forces.

Researchers study how particles move and interact, affecting their density profiles.