Latest Articles for Quantum Mechanics

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.

Exploring fresh perspectives on hydrogen atom behavior and interactions between its particles.

Examining rapid changes in magnetic properties of Heisenberg spin ladders.

Exploring how mutations and ecology shape evolutionary pathways.

Examining quantum entanglement within dipole-deformed SYM theory and its implications.

An exploration of how coadjoint orbits relate to particle behavior and interactions.

Exploring vacuum transitions and their impact on spacetime and the universe.

Exploring how particles behave in high-energy collisions using propagators.

A study of two linked qubits reveals unique energy behaviors and interactions.

Exploring the interactions between low-energy electrons and molecular states.

This research links Weyl and chiral phonons, revealing new properties in tellurium crystals.

Research sheds light on the non-Hermitian skin effect in resonator systems.

Research reveals new insights into tetraquarks formed from heavy and light quarks.

This article explores particle motion in nonharmonic potentials and the role of decoherence.

Investigating the relationship between quantum geometry and superconductivity in oxide interfaces.

This article investigates how nuclear shape affects decay processes.

Research reveals important details about short-range correlations in mirror nuclei.

A look into duality defects and their impact on quantum field theories.

New models merge quantum mechanics and cosmology through entanglement and holographic principles.

Analyzing meson decay to muon pairs for deeper physics understanding.

This study analyzes quark distributions in pions using the chiral quark model.

Exploring the connections between dualities and gauge theories in theoretical physics.

Research introduces control strategies for stabilizing quantum entanglement in qubit systems.

Research highlights the role of time-delay feedback in quantum self-oscillators.

How measurement frequency changes the behavior of quantum systems and learnability.

Explore the fascinating properties of massless fermions and their interaction with magnetic fields.

Exploring how tiny particles influence larger systems through quantum jamming.

Scientists search for signs of quantum black holes in high-energy collisions.