Latest Articles for Quantum Mechanics

Researchers derive important limits on scattering amplitudes in theoretical physics.

Explore the behavior of wave functions in symmetric quantum systems and their phase transitions.

Research on the Higgs boson reveals intricate particle interactions and challenges in measuring its properties.

This article explores stout smearing and Wilson flow in lattice gauge theory.

This article examines moduli stabilization in string theory through the Landau-Ginzburg model.

Study examines how pseudoscalar mesons affect proton dynamics through generalized parton distributions.

Research explores quantum states under less-than-ideal conditions.

A look into how quantality influences atomic nuclei behavior.

Study reveals stability of quasinormal modes in black holes with noncommutative geometry.

Research reveals how rotation and temperature affect gluon dynamics.

Exploring how quantum effects may alter gravitational collapse outcomes.

Researchers develop fresh techniques for scattering amplitudes involving gluons and scalar particles.

Research focuses on charmonium's spin-singlet state and its decay behaviors.

An overview of DMFT and its role in studying strongly interacting electron systems.

A look into the transformation of entangled states through local operations and communication.

Exploring new theories about the nature of spacetime using quantum gravity concepts.

This study examines quasicrystals and their behavior under various conditions.

This article discusses conformal defects and their implications in theoretical physics.

Exploring the links between quantum gravity, dark matter, and neutrinos in modern physics.

This article explores black holes and their connection to quantum mechanics.

Discoveries in scattering amplitudes reveal deeper interactions between particles.

Examining particle creation in dielectric media resembling black hole behavior.

Discover how gravity links with quantum entanglement through new concepts.

An overview of Floquet theory’s role in analyzing periodic systems.

Research on highly charged ions enhances atomic clock accuracy.

This article discusses a new method for calculating tree amplitudes using the double soft theorem.

Examining symmetric pairs in quantum groups and their mathematical significance.

Examining the links between quantum mechanics, black holes, and the fabric of spacetime.

A look into hybrid mesons and their properties in particle physics.

A new tool simulates DIS events, focusing on massive particles and neutrinos.

Study of magnetic impurities reveals complex interactions in superconductors.

A look into pentaquarks and hexaquarks and their wave functions.

Examining how charged impurities behave in Bose-Einstein condensates.

Examining shear viscosity in Quark Gluon Plasma across varying densities and temperatures.

Exploring the concepts behind the Universe's unexpected acceleration.

Exploring the effects of chirality in quark matter and its significance.

An overview of distribution amplitudes and their role in particle physics.

A look into soft theorems and their role in particle interactions.

GHD provides insights into the behavior of interacting particles in various physical systems.

New methods improve control of quantum systems and enhance analysis efficiency.