Latest Articles for Quantum Mechanics

Exploring axions and their impact on dark matter and fundamental physics.

Investigating light interactions with rubidium vapor in strong magnetic fields.

Explore the behavior of bosons and their fascinating phase transitions in quantum mechanics.

New insights suggest neutrinos might play a key role in dark matter.

An overview of fully-heavy multiquarks and their mass behavior.

Hybrid mesons could reshape our understanding of particle interactions.

Exploring the role of heavy quarks in particle physics and DIS experiments.

Exploring the significance of magic states in enhancing quantum computing capabilities.

Understanding decoherence is vital for advancing quantum computing technologies.

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

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

Researchers propose a method to detect deviations in quantum mechanics using Kullback–Leibler divergence.

Evaluating the efficiency of indefinite causal order in quantum computing.

A novel method improves how we study materials that conduct electricity.

Study reveals new ways to stabilize remote qubit entanglement with minimal resources.

QiankunNet uses neural networks to improve quantum chemistry calculations.

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

Internal squeezing boosts the performance of quantum sensors across various fields.

Quantum clocks use tiny particles for accurate timekeeping.

Quantum batteries offer innovative solutions for faster energy storage and extraction.

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

New methods improve accuracy and efficiency in understanding chemical interactions through pseudopotentials.

Study of diboson production reveals insights into fundamental interactions and potential new physics.

Investigating heavy quarks and their role in quark-gluon plasma.

Exploring the role of matrix Schrödinger operators in wave behavior and stability.

Examining the role of quaternions in quantum behavior and the Klein paradox.

This research examines how spin and OAM influence proton behavior.

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

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

Research demonstrates generating distant entanglement using innovative magnomechanical systems.

Investigating the complexities of quantum gravity and its associated divergences.

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

This study investigates how heavy quarks lose energy in quark-gluon plasma.

A deep dive into instantons and their role in quantum field theory.

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

This study examines the properties of kaons and strangeonium using Regge phenomenology methods.

Investigating electron behavior on negatively curved surfaces in magnetic fields.

Study reveals new behaviors of waves around black holes in higher dimensions.

Research reveals Lambda(1405) may consist of two nearby resonances.

Researchers map the moduli spaces of heterotic strings and their complex interactions.