Latest Articles for Quantum Mechanics

Exploring the role of electroweak phase transition in the universe's matter dominance.

A look into Lee-Yang zeros and their relevance in quantum measurements.

Exploring the stability issues of inner-extremal regular black holes under quantum effects.

A new method enhances simulations of magnetic materials using spin-polarized dynamics.

This paper examines the complexities of measuring quantum systems and their implications.

Discover how electric strings shape our understanding of particle interactions.

Kink and antikink behavior reveals insights into physics and quantum fields.

Research investigates quantum entanglement and Bell inequalities through scattering experiments.

Investigating charmonia and bottomonia production in high-energy physics experiments.

Exploring phase transitions and multistability in nonlinear photonic systems.

Scientists uncover a new tetraquark, deepening knowledge of particle interactions.

A fresh approach to understanding the dynamics of weakly interacting Bose gases.

This study examines the weak decay processes of heavy baryons using the light-front quark model.

Green-hyperbolic operators are key in analyzing classical and quantum physical systems.

Research on Cooper pair splitting enhances potential for quantum technologies.

Introducing a revised approach to analyze nuclear responses in quasielastic electron scattering.

Investigating how stacking disorder affects the properties of -RuCl3 crystals.

Investigating the links between acceleration, temperature, and thermal radiation.

A comparison of classical and quantum computing methodologies and their implications.

Exploring how open Fermi surfaces influence magnetism through Aharonov-Bohm effects.

Recent findings reveal unique behaviors in quantum systems resisting thermalization.

Investigating low-mass dimuon pairs for hidden particles at the Large Hadron Collider.

Examining how permanent dipoles affect light interaction in quantum materials.

Exploring the relationship between gauged supergravity and three-dimensional CFTs.

Neural networks offer a promising approach to solving complex quantum equations.

Recent findings shed light on the unique properties of doubly heavy tetraquarks.

This method improves secure communication by detecting eavesdroppers without key comparison.

Exploring heavy quark dynamics in quark-gluon plasma and their implications.

A look into the Dashen phase and its implications in particle interactions.

New findings predict properties of baryons made of heavy quarks.

This article reviews research on electric-dipole matrix elements in atomic cesium.

Examining particle interactions and dynamics in non-equilibrium states using the Fermi-Hubbard model.

Examining the impact of AI on quantum optics and its collaboration with human researchers.

Discover how feedback control can enhance energy extraction in quantum systems.

Researchers challenge traditional interpretations of quantum mechanics using configuration-space density frameworks.

A look into the significance of transverse momentum in particle interactions.

Examining how nuclear deformation impacts particle production and interactions.

Exploring how quantum computing aids in simulating quarks and gluons interactions.

Exploring the importance of entanglement in nuclear physics and its implications.

Discover how interacting vacuum models help explain dark matter and dark energy.