Latest Articles for Quantum Mechanics

This work discusses numerical methods for simulating open quantum systems and their effectiveness.

New techniques improve generation of entangled photons for quantum technologies.

An overview of how string theory addresses particle types and their limits.

Investigating how tilted lattices affect particle movement and transport efficiency.

A fresh approach improves heat conduction simulations at the molecular level.

A study on the impact of Bose-Einstein condensates in quantum Otto engines.

A new model reveals how measurements affect quantum systems over time.

Examining how magnetic fields and quark mass affect pion properties.

Examining Higgs models reveals insights into fundamental particles and dark matter interactions.

This article examines Bose glasses and their fascinating properties in condensed matter physics.

Exploring the connection between quantum states and uncertainty principles in modern physics.

Exploring the relationship between entropy, black holes, and cosmic expansion.

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

Research on gluons and their role in matter through heavy quarkonium particles.

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

A novel model that simplifies the study of atom interactions.

An overview of symmetries and anomalies in quantum field theories.

Research uncovers potential solutions to Cabibbo angle anomaly involving sterile neutrinos.

This study explores the behavior of spin polarons in Mott insulators and their potential for superconductivity.

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

Scientists are studying how quantum mechanics influences gravitational waves.

This article explores the unique thermodynamic properties of black holes.

Exploring how exceptional points enable unique light transmission patterns.

Research shows stable Thouless pumping possible with strong interactions.

Researchers study quantum spin chains to better understand energy transfer in quantum systems.

Research reveals insights into quantum interactions through thermal correlators and black hole behavior.

Exploring how atomic movement affects friction at quantum levels.

Research reveals unexpected phases of Higgs potential at high energy levels.

New methods enable efficient management of entanglement in quantum systems using YIG spheres.

Scientists propose a method for information transfer using black holes.

Exploring the connection between holography and the universe's expansion dynamics.

A look into nucleon behavior and forces in atomic nuclei under various conditions.

Exploring the challenges and strategies in developing stable supersymmetric GUTs.

An analysis of baryon behavior in neutron stars and their complex interactions.

Examine the role of irreversibility across thermodynamics and information theory.

Researchers uncover how light pulse shapes affect quantum states and measurements.

Examining the Chern-Simons model's impact on the fractional quantum Hall effect.

Researchers are uncovering the complex nature of tetraquarks in particle physics.

Research reveals key factors in the Mott transition, focusing on local interactions over long-range effects.

Investigating how random resets affect quantum particle behavior.