Latest Articles for Quantum Mechanics

LHCb is advancing the study of heavy-ion and fixed-target particle collisions.

Research on how powerful lasers change particle behavior and fundamental forces.

A look into random curves and their applications in mathematical physics.

Exploring new methods for protecting quantum information from errors.

Researchers study entangled particles to reveal secrets of quantum mechanics and gravity.

Explore the role of quantum soft-covering in transmitting information accurately.

Exploring quantum critical points and their impact on phase transitions in materials.

Investigating how electrons interact with nucleons reveals insights about quarks and gluons.

Investigating quantum walks with fractals may change our approach to quantum mechanics.

This article explores the role of right-handed neutrinos in SMEFT and their implications.

Study how quantum walks reveal complex particle behavior in quantum systems.

A look into the role of AdS vacua in supergravity theories.

An overview of quark masses and their significance in particle physics.

Examining the impact of the Jost function on particle interactions.

Exploring the behavior of quantum systems under various measurement conditions.

Research reveals how microwaves impact resistance in high-mobility materials.

This article explores the latest techniques in transferring quantum states efficiently.

Quantum information engines optimize energy extraction through collective qubit interactions.

Exploring the significance of gluon production in high-energy physics.

Exploring the link between magnetic quivers and Drinfeld centers in modern physics.

Exploring new ideas in quantum mechanics beyond traditional Hermitian systems.

Exploring the fundamentals of noncommutative gauge theories and their implications in physics.

A unified theory reveals new insights on the skin effect across different dimensions.

Exploring the unique properties of TmVO near quantum critical points.

Exploring the behavior of twisted electrons in magnetic fields reveals important insights.

Research investigates unusual patterns in ultracold atomic systems.

Investigating how strong circularly polarized light ionizes atoms and its implications.

Exploring unique solutions within the Yang-Baxter equation and their significance.

Researchers are modifying neutrino mixing models to align better with experimental data.

A look at how particles behave under extreme momentum in Quantum Field Theory.

Exploring the complex behavior of vacuum states within resonators and their significance.

MINERvA study sheds light on nucleon structure through antineutrino interactions.

Research explores solitons decaying into gravitons, revealing insights about dark matter and cosmic evolution.

Research explores how electron-positron pairs are formed in strong electric fields.

A look at scalar mesons and kaon-induced reactions in particle physics.

An overview of scattering amplitudes, focusing on the Virasoro-Shapiro amplitude in AdS space.

A new method enhances estimation of quantum state usefulness with limited data.

Dicke states showcase unique entanglement properties vital for quantum technologies.

A look into the Uhlmann Transformation Problem and its significance in quantum information.

Exploring the role of smoothing estimates in Schrödinger and Dirac equations.