Latest Articles for Advanced Technology

Investigating behaviors of one-dimensional bosonic rubidium atom systems.

Researchers introduce a light-controlled superconducting transistor for better current management.

Researchers investigate optical bistability in atom-cavity systems, revealing new phases and implications.

Research on chiral helimagnets offers insights for future technology in memory and computing.

Research reveals insights into flat bands and topological properties in materials.

Investigating winos and higgsinos using ATLAS data from proton collisions.

Exploring the potential of gravitational machines to generate energy from massive celestial bodies.

This study evaluates the performance of different waveguide designs in chiral quantum optics.

Recent measurements reveal significant resonance structures in charmonium particle interactions.

Research into double perovskites reveals complex interactions and unique properties.

Researchers propose new ways to find rare processes involving the top quark.

Exploring the potential of CV QKD for secure communication systems.

A look into the Belle II experiment's focus on particle physics.

Discover the fascinating properties and significance of coreless vortices in superconductors.

GdRuSi shows promise for future technologies through its skyrmion properties.

Scientists are developing methods to study rare and forbidden decays in particle physics.

Scientists aim to measure how the Higgs boson decays into other particles.

Research reveals strain's impact on magnetic interactions in LaNiO3 thin films.

New method speeds up optical device design and enhances efficiency.

Using light-induced strain to manipulate electronic properties of topological insulators.

Research reveals diverse mechanical modes in diamond microdisks for advanced technology applications.

New techniques improve the efficiency of photon-number detector characterization.

This article examines fast ion transport in quasisymmetric configurations under Alfvénic perturbations.

Research investigates unusual patterns in ultracold atomic systems.

New method enhances production of optical cat states in quantum technology.

An overview of the Kerker phenomena and their implications in optics.

Study reveals how Permalloy affects Mn Au magnetic properties.

Research highlights how Alfvén modes affect plasma turbulence control in tokamaks.

New methods improve lifetime measurements of highly charged ions for precision technologies.

Discover the role of UANet in improving building extraction accuracy.

Analyzing quantum systems to reveal multipartite entanglement using Quantum Fisher Information.

EuPRAXIA@SPARC LAB in Italy will advance experiments with electron beams and Free Electron Lasers.

Researchers use engineered baths to stabilize topological insulators in quantum systems.

Researchers study a unique quantum state using spinor Bose gases.

A breakthrough method enables real-time monitoring of quasiparticle parity in superconducting devices.

Researchers advance our understanding of light and matter interactions through high-precision QED tests.

A novel approach streamlines the design of multi-qubit gates in quantum systems.

Researchers enhance ion loading speed for improved quantum computing performance.

Exploring Bayesian estimation for precise temperature measurement in quantum thermometry.

Quantum batteries offer innovative solutions for faster energy storage and extraction.