Latest Articles for Physics

Research reveals insights on thermoelectric properties of double quantum dots under temperature differences.

A study on Xenes and their potential in flexible electronics.

Discover how magnetic fluids self-assemble into unique structures and their applications.

Explore the role and properties of starlike functions in analytic mathematics.

Examining how droplets change shape and break apart in swirling airflow.

Exploring how contextuality impacts quantum measurement outcomes and its implications for technology.

A look into tensor ranks and their significance across various fields.

This study explores how charge screening occurs in graphene using mathematical modeling.

Exploring a new method for understanding the Ising model's behavior.

Researchers propose innovative methods to identify light dark matter particles.

A look into the interaction of light and fast-moving electrons.

New method for generating magnonic frequency combs using exceptional points.

Study reveals how bubble clusters affect rise speed and stability in liquids.

Discover how moiré lattices influence light behavior and wave propagation.

Using deep learning to address challenges in soliton dynamics and nonlinear equations.

A new method simplifies the Time-Dependent Schrödinger Equation for better quantum predictions.

A novel approach simplifies the analysis of magneto-oscillations in two-dimensional systems.

Researching the graviton mass sheds light on gravity and gravitational waves.

This study sheds light on cohomological equations and their implications for dynamic systems.

Delving into the unique behaviors of superconductors at point contacts.

Explore the behavior of turbulent flow near walls and its practical implications.

Exploring bilipschitz maps for embedding orbit spaces within Hilbert spaces.

A look at how slip pulses affect our world.

Research reveals new properties of exciton-polaritons, offering potential for advanced optical devices.

Examining cylindrical gravitational waves using holography reveals new insights into gravity.

This article explores Krylov complexity and its implications in quantum mechanics.

New method improves analysis of rare events in complex systems using optimal control.

Research focuses on detecting gravitational waves using axions and advanced magnetic detectors.

Recent research highlights spin transfer in FeNi alloys through ultrafast laser pulses.

A look into monopoles and their role in gauge theories.

This study shows how to use 13-level qudits in quantum computing.

A look into how multimode instabilities affect laser performance and applications.

Study of rectangle packing efficiency using random sequential adsorption method.

New method enhances vehicle image generation by minimizing drag.

Research on ions of Holmium and Dysprosium aids understanding of neutrino mass.

Study reveals how permeable barriers affect particle diffusion and statistical properties.

Scientists investigate axions to reveal dark matter's true nature and connections to regular matter.

This article examines acoustic black holes and their role in studying Hawking radiation.

Researchers study how gravity behaves at quantum levels using light and mechanical systems.

Exploring the role of quantum fluctuations in light element formation after the Big Bang.