Latest Articles for Quantum Physics

Skyrmions could transform memory storage and data processing with their unique magnetic properties.

Researchers observe unique quantum states in bilayer MoS₂, advancing electronic technology.

New insights into spins and magnetism in ferromagnetic materials enhance material design.

Examining quasiparticles and Andreev reflection in unique quantum states.

A look into CFTs, their challenges, and the role of heavy-light correlators.

A study reveals how strong interactions alter charge movement in quantum systems.

Research shows how structured randomness alters hybrid quantum circuit behavior.

A new method enhances efficiency in preparing ground states using quantum simulators.

Research highlights unique properties of topological insulators and their potential applications.

This article examines the importance of stability in non-i.i.d. quantum sources.

Examining inflation and its impact on the universe's early development.

Dolerophanite exhibits unique magnetic properties due to its special structure.

A look into qubits, their energy dynamics, and challenges in quantum computing.

Examining the role of cosmological correlators in understanding the early universe.

Research enhances light-matter interactions for new technologies.

Exploring the implications of Schrödinger’s cat in quantum mechanics.

LK-99 shows potential for superconductivity, but claims remain debated among scientists.

Research examines quantum systems' behavior during sudden changes and phase transitions.

This article discusses a new method for verifying location using quantum physics.

Explore how entanglement behaves near black holes and its implications for quantum gravity.

Exploring the dynamics of spin-boson systems and their applications in quantum technology.

A look into quantum walks and their unique probability distributions.

Gravitational waves offer insights into the universe's early phases and evolution.

Scientists use Rydberg atoms to enhance magnetic field measurement at room temperature.

New methods for generating entangled photon states pave the way for quantum technologies.

Exploring twin Fock states in quantum sensors for improved measurements.

Research reveals complex behaviors in superconducting systems through the Kitaev model.

Exploring Majorana fermions and their potential in quantum computing and spintronics.

A novel thermodynamic cycle outperforms the Carnot cycle under specific conditions.

Researchers develop a method to control excitons using electric fields in two-dimensional materials.

Research reveals strong coupling effects in spin-magnon dynamics using Kerr nonlinearity.

A new perspective on how context affects measurement outcomes using bundles.

Research centers on the capabilities of quantum thermal machines in energy management.

New insights into the Kitaev spin liquid model reveal intriguing properties of anyons.

This study examines chiral changes in the quantum Ashkin-Teller model and their effects on phase transitions.

A new method streamlines measuring entanglement and coherence in quantum systems.

New techniques using metasurfaces improve multiphoton state measurements for quantum technologies.

A look into how quantum gravity handles complex concepts like divergences.

A study focused on quarkonium production from heavy atomic nuclei collisions.

New SpinFET concept utilizes Weyl semimetals for efficient electronic devices.