Latest Articles for Physics

Study of Ni InSbO's magnetic structures under varying magnetic field strengths.

Examining how periodic forces impact energy dynamics in a spring-linked mass system.

Investigating electron behavior on negatively curved surfaces in magnetic fields.

Researchers develop tests to assess diffusion coefficients in complex systems over time.

Point defects play a crucial role in determining material behavior and applications.

Explore how magnetism drives motion in materials through the Einstein–de Haas effect.

Research highlights the role of spin-orbit interactions in improving quantum bits.

A new method for creating reliable quantum gates using surface electrons on liquid helium.

Researchers are revealing new insights into materials through non-Abelian gauge engineering and spectral topology.

Exploring the dynamics of active particles and their interactions in confined spaces.

Investigating how electric currents can manipulate Bloch points in magnetic materials.

Open-source code improves analysis of fluid and plasma behaviors under various conditions.

LaNiO3 shows high-temperature superconductivity with mild pressure and oxygen management.

Exploring the secrets behind the formation and behavior of glassy materials.

Researchers study how bubbles move in nematic liquid crystals, revealing insights about tiny swimmers.

Explore the unique patterns formed by quasiperiodic tilings and their material applications.

Examining how defects evolve in active nematic systems under varying activity and flow.

Learn how muon spin rotation uncovers material magnetic properties.

A new method enhances robot movement modeling using inverse dynamics.

Exploring transport equations and their implications across various fields.

Explore the role of entropy in understanding energy spread and system behavior.

A method to study mathematical shapes defined by polynomial equations.

This article examines the behavior of Burgers' equation and its singularities using advanced techniques.

A look into wave dynamics and soliton solutions in mathematical equations.

Scientists reveal unique electron states in materials with helical magnetic fields.

COSINUS research improves detection of dark matter signals using sodium iodide crystals.

A new method enhances extraction of quantum data from simulations.

A new method enhances the analysis of relaxation data for clearer results.

A new method enhances prediction accuracy for partial differential equations.

Researchers utilize machine learning to enhance anomaly detection in particle physics.

Research improves simulations of particle behaviors in high-energy physics.

Research sheds light on single-component superconducting order parameters and their implications.

Examining the Identity and Membership Problems in Heisenberg matrices.

Research explores lutetium hydride's potential for superconductivity at higher pressures.

Examining how heavy particles behave in turbulent environments and the formation of caustics.

A look into the mechanics of the chiral knife edge rattleback and its spin behavior.

This framework expands causal modeling to better understand physical theories and their implications.

New loop-zag resonator improves sensitivity and efficiency in ESR studies.

Explore the fascinating process of quantum tunneling and its implications in various fields.

Exploring the unique properties of chiral magnets and their applications in technology.