Latest Articles for Physics

Research reveals complex interactions in 1T-VSe during structural transitions.

Research merges Aharonov-Bohm effect with Kuramoto model for deeper insights.

An overview of the merging of quantum computing with graph neural networks.

Exploring the relationship between neural networks and spin models during training.

Learn about the unique properties and significance of topological states in structures.

Explore the puzzling concepts and applications of quantum physics in our universe.

Exploring the complex interactions between fractional quantum Hall states and fractional Chern insulators.

An exploration of dark solitons and their significance in various scientific fields.

Exploring connections between geometry, topology, and physical models through Lie groups.

Boulby Underground Laboratory enhances material screening for research with advanced detectors.

Exploring shortcuts to adiabaticity for faster system transitions without energy loss.

Explore how elastic curves evolve while maintaining area and energy efficiency.

A new magnetic trap enables levitation at room temperature, enhancing research possibilities.

MgPdAs shows superconductivity below 5.5 K, highlighting ternary compounds' potential.

Research on artificial gauge fields in ultracold atoms expands understanding of particle interactions.

Researchers enhance light control using innovative topological waveguides for various technologies.

A look into how particles interact through scattering amplitudes.

A closer look at how droplet arrangements affect evaporation rates.

A look at how gas particles interact and their implications.

A new method enhances state variable identification in dynamical systems using physical knowledge.

Researchers use lasers to control electron spins for advanced particle physics experiments.

Research delves into droplet behavior in dynamic environments, revealing complex interactions.

A look at the contributions to spin and orbital effects in materials.

Research on as-deficient MnAs reveals unique structural and magnetic behaviors.

New methods improve the calculation of elliptic functions with high precision.

This paper discusses how electrons emit light and change momentum in electromagnetic fields.

Learn how surface code improves logical qubit performance through error correction.

Investigating the unexpected signals in low-energy semiconductor detectors.

Explore how Earth's core shapes the magnetic field and its reversals.

Research reveals how spins and magnetic fields influence skin effects.

Research on PF2 ions aims to enhance phosphorus accuracy in quantum computers.

Exploring the relationship between topological modular forms and quantum field theories.

New developments aim to improve quantum state preparation efficiency.

Exploring the role of excited states in chemical reactions and electron behavior.

mBLOR functional enhances Density Functional Theory for better material predictions.

Krylov methods evolve to simplify complex quantum system analysis.

Researchers present a faster way to solve complex differential equations using random walks.

Innovative approach enhances control strategies in high-dimensional environments.

Exploring the differences between quantum mechanics and causal theories through measurements and correlations.

Research reveals how particle density affects movement patterns in fluid systems.