Latest Articles for Quantum Mechanics

Examining limits on parameters in effective field theories and their implications.

This article examines the link between entanglement and quantum metric in lattice models.

Exploring the Higgs mass and its implications for stability and new physics.

A look into axions and their significance in particle physics.

Explore how Krylov complexity helps study chaos in quantum systems.

BESIII data offers new insights into charm quarks and decay behaviors.

Exploring irreversible behaviors in isolated quantum systems and the role of local states.

This study examines how particle collisions impact spin polarization in quantum mechanics.

Learn the basics of particle behavior in quantum mechanics.

An exploration of quantum synchronization and its effects on technology.

An overview of fermion interactions in the Gross-Neveu model's phases.

Research on how entanglement behaves in the face of decoherence in quantum technology.

Exploring the connection between black holes and thermodynamic principles.

La Ni O shows promise as a superconductor at high temperatures under pressure.

A study of atomic behavior under squeezed coherent light interactions.

Examining integrable models and their significance in physics, especially string theory.

Research combines machine learning and molecular science to improve laser interaction insights.

A look at nucleons and their role in forming matter.

Study reveals how energy gaps affect quantum steering between detectors.

Explore the dynamics of qubits and photon interactions in quantum systems.

A novel perspective on resolving the strong CP problem using massless quarks.

Introducing improved estimators for energy and heat capacity in quantum materials.

Studying kaon decays could reveal new phenomena in particle physics.

Examining causal diamonds for insights into quantum mechanics and gravity interactions.

Scientists investigate elusive magnetic monopoles using heavy-ion collision data.

A look into lepton pair production during hadron collisions.

Learn how active steering manages qubit states amid noise and errors.

Isotopic disorder significantly impacts electron movement in materials, leading to unique scattering behaviors.

Examining the impact of bubble walls on phase transitions and gravitational waves.

A new method enhances the reliability of quantum device testing.

Exploring how neutrinos might acquire mass through axions in higher dimensions.

Examining the role of randomness in quantum mechanics and its implications for information processing.

This article explores the interplay between superconductors and antiferromagnets through N eel triplet correlations.

Study reveals the importance of longer-range interactions in graphene's unique phases.

This article explains the dynamics of operators in quantum many-body models.

New methods improve electron behavior modeling using machine learning techniques.

Research on heavy flavor quarks in nuclear environments reveals insights into heavy-ion collisions.

Research sheds light on black holes and their interactions with fundamental forces.

A new framework focuses on spin's impact on matter behavior.

Scientists study exotic particles that combine different quarks, challenging current physics models.