Latest Articles for Physics Research

Study reveals how cavity interactions affect Majorana states in topological superconductors.

A look at how the Kirkwood-Dirac distribution aids in quantum system analysis.

New plastic scintillator made from styrene shows promise for radiation detection.

Quantum thermal machines blend quantum mechanics with practical energy solutions.

Research reveals how edge modes maintain wave direction despite disturbances.

Examining how entanglement behavior varies in Minkowski and deformed spacetimes.

A new method improves laser field accuracy in high-intensity applications.

XENONnT experiment pushes boundaries in dark matter research with innovative electric field design.

Researchers expand understanding of particle behavior using Dirac equation and unique potentials.

Deep learning methods improve particle identification and data analysis at the LHC.

Investigating unique properties of kagome superconductors and their applications.

Investigating how antimony alters the properties of kagome metal FeGe.

Study reveals key interactions between alkali atoms and various materials.

Research reveals how entanglement islands may recover information from black holes.

This article examines nonreciprocal entanglement in cavity magnomechanics and its implications.

Research on skyrmions and their instabilities offers insights into future data storage solutions.

A new method to predict complex interactions in quantum systems.

New methods improve phase measurements of microwaves at room temperature.

A new method streamlines complex integral calculations in particle interactions.

Research reveals how electric fields affect tiny liquid crystal droplets.

FAT-GEMs enhance the detection of radiation using electroluminescence in gases.

Introducing a method to improve predictions in changing graph data environments.

Revolutionizing the understanding of quantum systems using machine learning techniques.

New methods in quantum phase estimation aim for enhanced measurement accuracy.

Explore the interactions of particles, focusing on QCD and tetraquarks.

Scientists are enhancing quantum state transfer methods to improve information processing.

Exploring unique states of free fermions in non-traditional environments.

Study reveals effects of NiO on Permalloy magnetic properties.

Research reveals insights into light amplification in Free Electron Lasers.

New research reveals how disorder impacts sound behavior in acoustic crystals.

Research on maintaining entanglement in quantum systems disrupted by noise.

Techniques for improving niobium SRF cavities in particle accelerators.

Explore how OTOC sheds light on chaotic behavior in quantum systems.

Researchers investigate the interplay of quantum scars and non-Hermitian properties.

Study uncovers potential for 2D chromium in spintronic devices.

Examining the unique properties of skyrmion lattices in GdRuAl.

A closer look at the bulk Hilbert space and its implications for black holes.

Exploring the potential and challenges of many-body quantum heat engines.

New model enhances calorimeter simulation efficiency and accuracy with machine learning techniques.

This article investigates quantum state similarities using circuits and their chaotic behavior.