Latest Articles for Quantum Physics

Exploring non-invertible symmetries and their implications in quantum field theories.

New strategies improve control of complex quantum systems during transitions.

Exploring the unique properties and potential of magic-angle twisted bilayer graphene.

Investigating the role of multifractality in quantum particle behavior and applications.

A look into the Casimir effect and its impact on branes in anti-de Sitter spacetime.

Research shows machine learning can predict non-Hermitian phase boundaries using Hermitian data.

Researchers enhance tensor networks to better analyze quantum entanglement and gauge symmetries.

A study of electron behavior in multi-path Aharonov-Bohm interferometers made from graphene.

Scientists study how gravity may differ across cosmic regions.

Exploring the impact of quantum computing on simulating particle interactions in QCD.

Study explores the behavior of spins in weakly interacting Fermi gases.

Research reveals how twisted layers alter electronic properties and enable fractional quantum effects.

This study uses neural networks to analyze thermal states in quantum systems.

This article explores new methods for measuring distances between photons with high precision.

Recent discoveries in gravitational waves enhance our understanding of cosmic events.

Exploring the special properties of twisted bilayer graphene and its magic angles.

Exploring how ICO improves accuracy in quantum measurements amid noise.

Researchers find ways to use noise for better quantum information transfer.

Exploring the complex behaviors of graphene under strong magnetic fields.

Quasars reveal details about universe expansion and the tension in current models.

Exploring the journey from skepticism to acceptance in quantum research.

Exploring the lattice Yang-Mills model and its significance in understanding particle interactions.

Exploring unique behaviors of non-Hermitian Dirac materials under light.

Examining how quantum fields shaped the early universe's structure and dynamics.

Researchers aim to manage electron behavior in graphene for practical uses.

A look at weak values and how they affect our understanding of particle presence.

This article discusses a self-adjoint momentum operator for particles in restricted areas.

A study of how external influences impact entanglement in Ising chains.

Research at CEPC aims to uncover insights into quantum entanglement through Higgs boson decay.

Research on quantum dots reveals their potential for advanced technologies and communication.

Exploring how non-local effects reshape our understanding of quantum electrodynamics.

New insights into MATBG's electronic behavior could lead to advanced electronic technologies.

Exploring the potential and challenges of vibrational polariton states in molecular systems.

Discover the unique electronic properties of Dirac semimetals and their fascinating transitions.

Examining how entanglement behavior varies in Minkowski and deformed spacetimes.

A look into singularities and their implications for our universe.

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.