Latest Articles for Physics

This article examines quantum field theories and their behavior at extreme energy levels.

RD50-MPW3 sensors show promise for high-energy particle detection.

Investigating light interactions with rubidium vapor in strong magnetic fields.

Study reveals mass dynamics in random potential on regular trees.

Scientists propose a model changing dark matter's behavior based on the scale of observation.

A look at how localized turbulence affects fluid dynamics.

Exploring Galois theory's impact on vacuum states in string theory models.

A new approach simplifies quantum state preparation using fewer resources.

An introduction to Segre-Veronese manifolds and their relationship with tensors.

An overview of key mathematical concepts and their links to physics.

Exploring the connections between gravity and quantum mechanics through symmetries and conservation laws.

New frameworks enhance the understanding of nonlinear topological materials and their applications.

Exploring how quenching affects defect formation in materials during phase transitions.

Study examines how system size impacts phase transitions in high-energy physics.

Exploring the nature and effects of dark energy in our expanding Universe.

A deep dive into the implications of Gromov and Sormani's conjecture.

A breakdown of reference frames and their role in understanding gravity.

Quantum clocks use tiny particles for accurate timekeeping.

Researchers apply machine learning to better understand phase transitions in materials.

Research explores hole interactions in Hubbard models, impacting superconductivity and magnetic properties.

Study of electrical signal behaviors in Josephson transmission lines reveals insights on shock waves and kinks.

Exploring the electronic behaviors of half-Heusler compounds and their applications.

Research on axions could reshape our view of dark matter and fundamental physics.

This article covers the unique properties and applications of lead germanate oxide.

Orthogonal polynomials play a key role in various mathematical applications.

Examining dark matter's role in early universe using a new model.

New findings challenge traditional views on electric field states and Gauss's law.

Exploring the unusual electrical properties of strange metals in kagome lattices.

A study reveals insights into exceptional Lie groups and their relationships.

A look into how powerful lasers advance the study of light and matter interactions.

A study on how noise affects dynamical system models.

A study on how particles behave in challenging environments with obstacles.

A new method improves the analysis of X-ray microspectroscopy data for better material insights.

Discover how quantum correlations challenge our understanding of physics and technology.

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.