Latest Articles for Quantum Mechanics

New course combines quantum and classical computing for future readiness.

Discover unique states in quantum mechanics and their surprising properties.

Gravastars provide an alternative view on the nature of mass in the universe.

Democratic string field theory offers insights into string interactions with multiple configurations.

A new receiver method improves reliability in optical communication systems.

Exploring temperature influences on quark behavior and sound properties in dense environments.

Examining position operators' role and challenges in quantum mechanics through matrix representations.

Examining quantum rotors and their significance in understanding quantum behaviors.

Examining the role of the Higgs field in cosmic inflation and universe formation.

An overview of superconductivity mechanisms and electron interactions in various materials.

Researchers investigate the interplay of quantum scars and non-Hermitian properties.

This article presents a graph theory approach to assess non-integrability in spin systems.

This article compares Kubo and QFT models for graphene's electrical conductivity.

New models improve predictions of rare radioactive decay processes.

Examining the impact of Coulomb potential on electron paths during ionization.

Exploring entanglement changes after sudden splits in quantum systems.

This research evaluates single top quark and antiquark production rates from LHC data.

Researchers delve into the complexities of dark matter interactions through NREFT.

Exploring how dimensionality impacts Anderson localization in quantum systems.

A study on the interactions of light and nucleons for deeper insights into matter.

This article examines particle behavior near boundaries in tight-binding models.

Discover how quantum frequential computers are changing technology with speed and efficiency.

An exploration of the Spin-Statistics Theorem and its implications in quantum physics.

Examining classical dynamical matrices in the context of Chern-Simons theory and gravity.

A look into Appell and Lauricella functions and their impact on scientific calculations.

Exploring the link between real and imaginary time in quantum systems.

Investigating critical points in quantum chromodynamics and their significance in understanding matter.

OLRG offers a fresh approach to better simulate complex quantum systems.

Exploring how squeezed states alter entanglement properties in quantum systems.

Investigating jettiness provides insights into particle interactions in high-energy collisions.

Study reveals particle behavior in gold-gold collisions at extreme energy levels.

Research sheds light on quark-gluon plasma and thermoelectric effects in extreme conditions.

Explore the significance and applications of Lie colour algebras in mathematics and physics.

Researchers develop new methods for preparing Bethe states in quantum systems.

Researchers explore unique states of matter in graphene and their potential applications.

New methods enhance understanding of fluid dynamics in extreme nuclear conditions.

Examining the role of quantum states in measurement and technology.

This article examines how loop corrections affect the bispectrum during inflation's USR phase.

This research investigates top-quark pair production involving isolated photons and its implications.

A groundbreaking approach simplifies conversion between linear and quadratic propagators.