Latest Articles for Quantum Mechanics

Explore the role of random tensors in quantum information and data analysis.

Study reveals unique interactions between magnetism and superconductivity in tin on silicon.

Exploring the secure future of currency through quantum mechanics.

Investigating how minimal length affects space, time, and particle interactions.

Exploring atomic interactions with light in curved spacetime environments.

This study examines the creation of random potentials through dark states in ultracold atoms.

Recent findings on gravitational waves may reveal the role of heavy QCD axions.

A look into tetraquarks and their unique properties in the charm sector.

Researching heavy quark behavior in heavy-ion collisions for insights into matter properties.

Scientists study neutrino oscillation and the impact of decoherence effects.

Examining how particles gain mass without breaking symmetries.

SEAQT framework enhances understanding of electron and phonon transport in materials.

This research explores the connection between quantum gravity and Bell's inequality.

Exploring Floquet engineering and its impact on quantum computing techniques.

This study explores nucleon-pion interactions using advanced lattice QCD techniques.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.

Discover the unique properties and behaviors of neutrinos in particle physics.

A fresh look at the many-worlds interpretation using mixed states.

This study examines quark matter's shear viscosity influenced by strong magnetic fields.

Discover the unique properties and stability of charged boson stars.

Research reveals dynamics of Lifshitz scalar field influenced by black holes.

Exploring how measurements affect qubit behavior in quantum circuits.

This study introduces Quantum GravitoElectromagnetic Dynamics, aiming to connect gravity and quantum mechanics.

Exploring the unique properties of hyperscaling violating black holes and their significance.

A fresh theory improves understanding of paired electron behavior in superconductors.

Researchers study the charmed hypertriton to uncover particle interactions.

Research on baryon number fluctuations helps reveal nuclear matter's critical transitions.

Examining how waves influence particle movement in quantum physics.

An overview of integrable operators and their significance in various fields.

Examining the role of lattice theory in understanding quantum mechanics and experimental propositions.

Exploring the link between knots and quantum invariants.

Exploring the implications of massive gravitons on gravitational interactions and cosmic structures.

New experiments reveal important details about leptoquarks through neutrino interactions.

Researchers analyze Higgs boson decay patterns to unveil particle physics insights.

A look into blackholes and blackrings, their properties, and significance in modern physics.

Research advances in modeling complex electron behaviors in materials are crucial.

Investigation of quantum phase transitions using the extended Jaynes-Cummings model and a new method.

Study reveals critical findings about particle interactions and resonances using lattice QCD.

Exploring how scattering, entanglement, and mutual information connect in particle physics.

This article examines the complexity involved in discrete-time quantum walks and their circuits.