Latest Articles for Physics

A study on using VQE to analyze quantum systems and magnetic materials.

Discover the concepts and implications of five-dimensional wormholes in our universe.

A new model enhances predictions for magnetic hysteresis in materials.

Exploring the challenges and methods in detecting the elusive graviton particle.

An overview of symmetries and anomalies in quantum field theories.

Examining the unique behaviors of five-body central configurations in gravitational systems.

Research on neutrinos reveals their ability to change types, challenging our understanding of physics.

A novel approach to simplify solutions in sweeping processes using approximate calculations.

A new perspective on the conditions for the Cosmos's start.

Exploring the unique properties and applications of 2D antiferromagnetic materials.

Learn how dynamic circuits improve long-range entanglement in quantum systems.

A new method to control tiny particles using shaped vesicles shows promise.

A new method improves magnetometer sensitivity using squeezed light technology.

This article explores how magnetic fields can enhance electron trapping in graphene quantum dots.

A look at quantum fields and their role in spacetime interactions.

A look into the fascinating world of knots and their mathematical properties.

This article examines how granular materials stabilize through repeated shearing cycles.

Examining the electron EDM through HfF ion offers insights into fundamental physics.

Fullerides combine carbon fullerenes and alkali metals, showcasing unique superconducting properties.

New findings on Fe CoGeTe may advance spintronic technologies.

Introducing a unique method for representing quantum states in time and space.

Machine learning techniques streamline the analysis of topological materials.

Scientists are studying how quantum mechanics influences gravitational waves.

Exploring the connections between sterile neutrinos and dark matter in modern physics.

This article examines the online learning of linear operators and its complexities.

This study examines how rare events occur in systems with random walkers.

New measurements reveal anomalies in meson behavior, prompting a reevaluation of existing theories.

Exploring solutions, stability, and applications of fourth-order nonlinear parabolic equations.

New methods improve efficiency in complex physics simulations and modeling.

A look into how particles behave under external forces and fluctuation relations.

Mini-EUSO observes cosmic rays from space, offering insights into high-energy particles.

An overview of the unique movement patterns in supercooled liquids.

Exploring how atomic movement affects friction at quantum levels.

Scientists propose a method for information transfer using black holes.

New techniques promise high-energy particle acceleration using laser wakefield methods.

An overview of Dirac operators used to study systems with time delays.

This article examines the behavior of topological surface states on lead-covered insulators.

Exploring how randomness impacts solutions to partial differential equations.

LK-99 could change our understanding of superconductivity with its unique structure.

Steady loop currents challenge traditional views on energy radiation.