Latest Articles for Quantum Mechanics

A look into the significance of quantum master equations in quantum systems.

A study of quantum dynamics using master equations to model interactions.

Examining Fermi liquids near critical points reveals complex interactions and new dynamics.

A look at how black holes may reveal secrets of the early universe through gravitational waves.

Examining Yukawa couplings and their significance in quantum gravity.

Research reveals potential pathways for understanding new physics through cLFV.

Examining the role of non-Abelian anyons in future quantum technologies.

Explore the unusual effects of quantum entanglement and its implications.

Discover how quantum games redefine our understanding of competition and collaboration.

A look into quantum graphs, their structure, coupling, and spectral characteristics.

An accessible look at Hawking radiation and its implications for black holes.

Examining ion interactions with solvent in varying density environments.

A new method enhances simulation of molecular behavior across multiple electronic states.

Physicists investigate interacting fermions in holographic systems and their implications for quantum behaviors.

A new approach improves understanding of quantum systems and their environmental interactions.

Research reveals how nonlinear behaviors can protect topological properties in various systems.

Research on stubs enhances our grasp of string interactions.

Exploring how 1D patterns impact the electronic behavior of the Lieb lattice.

A novel technique using atom interferometry seeks precise measurement of a fundamental physics constant.

Explore how spin-orbit coupling impacts energy levels and conductivity in kagome networks.

This study examines how distance affects interactions among quantum particles.

This article explores the decay processes and properties of the -meson.

Exploring the impact of quantum dots on electronics and photonics.

New experiments aim to reveal the secrets of dark matter and dark energy.

A new method to calculate zero-error capacity using quantum mechanics and finite automata.

Scientists study new quarks using the 2-Higgs Doublet Model to enhance particle detection.

Examining the interplay between chaos and quantum behavior in various systems.

Examining thermal behavior in spin chains through entangled antipodal pair states.

New method improves efficiency in simulating complex molecular interactions.

Recent findings on MoTe challenge existing theories in condensed matter physics.

Investigating the role of axion-like particles in particle physics and the strong CP issue.

This article explores how quarks influence protons' properties and behavior.

Exploring the potential and challenges of many-body quantum heat engines.

Improving location tracking with innovative quantum technology methods.

New methods using random fluxes enhance understanding of bosonic particles and black holes.

Research reveals key insights into metal-insulator transitions using cold atom systems.

An exploration of closed universes through quantum gravity and holographic theories.

Research introduces a flexible approach to studying black holes and their features.

Research reveals new characteristics of dark-bright solitons with varying widths.

A look into the links between quantum field theory and geometry through probability.