Latest Articles for Quantum Physics

Research improves biphoton generation for quantum technologies using nonlinear photonic circuits.

This article explores the Anderson-Holstein model and stochastic Schrödinger equations in quantum systems.

Quantum pseudorandom state scramblers enhance random state generation in quantum computing.

Learn about the role of multipartite entanglement in quantum physics and its applications.

Exploring the use of analog computers for simulating quantum systems and solving complex equations.

Study reveals complex phase behaviors in quasicrystals interacting with non-Hermitian effects.

Investigating real eigenvalues in non-Hermitian quantum systems reveals new insights.

Research introduces a geometric method for more effective quantum state manipulation.

An overview of the Lyman Alpha Forest and its significance in cosmology.

Exploring electron behaviors in materials through the ionic Hubbard model.

Exploring the significance of coherent states and their role in quantum systems.

A new approach blends classical ideas with quantum physics to understand concepts better.

This study examines a model explaining the universe's accelerating expansion using Lyra's geometry.

Examining how correlation functions help understand the universe's early phases.

New methods enhance quantum measurements using multilevel atoms in optical cavities.

This article looks at models of spin systems and their relevance to technology.

Exploring weak measurements and their impact on de Broglie-Bohm theory.

Examining how ring structures of quantum emitters enhance energy transport and collection.

Research on soft gravitons enhances our grasp of gravity's fundamental nature.

New methods enhance the extraction of spectral functions in Lattice QCD studies.

Exploring the latest developments and implications of discrete time crystals in quantum physics.

Recent findings on quasiparticles enhance our grasp of cuprate superconductivity.

Learn about quantum networks, entanglement, and their practical applications.

Examining how noise affects phase transitions in polariton condensates.

This article examines long-lived states shaped by random constraints in quantum systems.

Research explores self-stimulated echoes and their applications in advanced technology.

Charm quark behavior in extreme conditions sheds light on fundamental particle interactions.

Exploring how strong electric fields create electron-positron pairs from empty space.

Scientists study dark matter's effects on black holes and radiation emissions.

A library for calculating Green's functions in complex quantum systems.

QMBS challenge our views on thermalization in quantum systems.

Discover how particles can pass through barriers in quantum mechanics.

Exploring the role of instantons in two-dimensional quantum field theories.

An overview of key quantum concepts and their significance in technology.

New methods enhance accuracy and efficiency in simulating Bose-Einstein condensates.

Research sheds light on lithium-7's interactions and the Efimov effect.

Exploring Wigner's friend and its implications for measurement in quantum physics.

A new method enhances precision in measuring quantum states using ultracold atoms.

Explore the significance of nonclassical states in advancing quantum technologies.

A look into the challenges of understanding quantum system evolution.