Latest Articles for Dissipation

Combining classical and quantum methods enhances understanding of spin-boson interactions.

A study on diffusion coefficients and entanglement in coupled quantum oscillators.

Learn how qubits interact with noise and its implications for quantum computing.

This research reveals how vortices cluster in polariton quantum fluids under various conditions.

Examining how draining flows affect quantum vortices' stability and behavior.

Research advances techniques for stabilizing remote entanglement using superconducting qubits.

Study reveals effects of dissipation on Majorana particles in nanowire-superconductor setups.

Research on XXZ spin chains reveals complex behavior under dissipation.

This article examines how to study information in weather systems.

New methods improve accuracy in predicting gravitational waves from black hole systems.

A look at how quantum entanglement changes over time and its implications.

Study reveals interactions of light and matter through shock waves in special atomic gases.

Measurements in quantum systems can create currents through the influence of symmetry.

Exploring how materials react to electromagnetic fields and their applications.

Research reveals key factors affecting edge plasmons in V-doped bismuth selenide films.

Investigating how ions move in solids can improve energy storage solutions.

This article examines the behavior of magnons and photons in a unique system.

Research reveals soliton gases can evolve into stable structures under weak dissipation.

Exploring the behavior and patterns of wave turbulence in various systems.

An overview of the fascinating behaviors in the XXZ spin chain under external influences.

Exploring the relationship between many-body localization and thermal states in physics.

Researchers reveal new mechanisms of particle delocalization using vacuum fluctuations in quantum systems.

New techniques stabilize cat states for improved quantum computing applications.

Exploring a model that combines inflation and dark energy dynamics.

Examining how energy loss influences behavior in dynamic fractional systems.

Exploring shrimp-shaped domains in dissipative asymmetric kicked rotor maps.

This study explores energy dynamics and excitations in moving metallic plates.

Explore the intriguing behavior of kinks and their impact in various systems.

A look at the kicked rotator model and its implications for understanding chaotic systems.

Discover how particles shift between energetic and relaxed states.

Dive into the quirky science behind the Mpemba effect and quantum cooling.

A look into the impact of dissipation on topological edge states.

A look at the intriguing world of superfluid rings and their effects.

An overview of quantum state transfer and its implications in physics.

Explore how particles interact and change energy in a billiard-like setup.

Exploring how dissipation affects critical behavior in fermionic systems.

A look into the behavior of hadrons and their spin in heavy-ion collisions.

Dive into the world of bosonic gases and their interactions with environments.

Discover how new methods are changing the game in controlling quantum systems.

Explore the unique properties and implications of non-Hermitian systems in physics.