Latest Articles for Josephson Junctions

Gatemon qubits show promise in enhancing quantum computing through unique materials and structures.

This article explores topology in superconducting circuits and the BiSQUID's unique behaviors.

A new model improves hTron simulations, enhancing circuit design efficiency.

A novel method for achieving topological superconductivity using magnetic barriers in Josephson junctions.

Investigating the role of Andreev spin qubits in quantum computing.

New findings on Josephson junctions enhance understanding of superconductivity and its applications.

This study examines how critical currents affect superconducting quantum interference filters.

New insights into Josephson junctions using nanowires for quantum computing.

Research advances the study of Andreev bound states for future quantum technologies.

Exploring the benefits and challenges of RSFQ systems in modern electronics.

Explore how the NMon qubit improves stability and noise resilience in quantum computing.

Examining similarities between fluid dynamics and quantum systems.

Research reveals new insights on superconducting diodes using Josephson junctions for efficient current management.

Researchers reveal advanced methods for measuring current phase relations in graphene superconducting junctions.

Researchers utilize two-tone spectroscopy to enhance quantum circuit understanding.

New design improves microwave signal control for quantum technologies.

This article explores the superconducting diode effect and its implications in technology.

Researchers study the complex behaviors of Josephson junctions and their potential for technology.

Exploring the link between holographic theories and superconducting behavior through Josephson junctions.

Investigating unique behaviors in superconductors through fractional Shapiro steps.

Examining monopole superconducting order through experimental approaches and theoretical models.

Quasiparticles disrupt superconducting circuits, impacting quantum computing performance.

A novel silicon-aluminum capacitor could enhance superconducting circuit performance.

Exploring superradiance and its implications in superconducting materials.

A study on using microwave spectroscopy to examine Andreev bound states in semiconductor junctions.

New developments improve electronic properties for quantum technology applications.

Researchers are using Josephson junction arrays to simulate complex quantum systems.

New design enhances TWPA performance using Josephson Junctions for better signal amplification.

Research reveals connections between Shapiro steps and ultracold atomic behavior.

Exploring the interaction between Josephson junctions and three-dimensional topological insulators.

Research into Josephson junctions reveals new insights into topological superconductivity and Majorana modes.

A new thermal spectrometer offers a simpler way to measure superconducting circuits.

Examining the role of Majorana states in quantum computing applications.

Exploring the design and noise characteristics of SQUID arrays in magnetic sensing.

This new approach simplifies qubit control and reduces heat in quantum systems.

Discover the unique interplay between superconductors and unconventional magnets.

Researchers enhance superconducting quantum circuits for advanced technology applications.

xeSFQ circuits promise zero static power consumption for efficient computing.

Explore the fascinating world of quantum activities and their potential impacts.

An overview of superconducting circuits and their implications for quantum computing.