We give a broad overview of the history of microwave superconductivity and explore the technological developments that have followed from the unique electrodynamic properties of superconductors. Their low loss properties enable resonators with high quality factors that can nevertheless handle extremely high current densities. This in turn enables superconducting particle accelerators, high-performance filters and analog electronics, including metamaterials, with extreme performance. The macroscopic quantum properties have enabled new generations of ultra-high-speed digital computing and extraordinarily sensitive detectors. The microscopic quantum properties have enabled large-scale quantum computers, which at their heart are essentially mic...
The fascinating phenomenon of superconductivity and its potential applications have attracted the at...
Coherent superconducting circuits play a key role in explor-ing the interaction between light and ma...
This thesis presents an effort towards integration of superconductor-contacted carbon nanotubes into...
Superconducting circuits and devices have unique properties that make them interesting from both the...
Quantum information processing systems rely on a broad range of microwave technologies and have spur...
© 2019 IEEE. Over the past two decades, the performance of superconducting quantum circuits has trem...
The research reported here details experimental progress toward future superconductor-based quantum ...
Quantum computers will one day wildly outperform conventional machines. An experimental feat reveals...
We have measured the number of quasiparticles and their lifetime in aluminium superconducting microw...
Here we use superconducting circuits as components for quantum computing and as model systems for no...
Superconducting circuits operated at low temperatures have led to rapid advances in quan...
300 pags.Superconducting quantum circuits are among the most promising solutions for the development...
For four decades semiconductor electronics has followed Moore's law: with each generation of integra...
Microwave techniques have been widely used to characterize properties of conventional superconductin...
Quantum optics in superconducting circuits, known as circuit QED, studies the interaction of photons...
The fascinating phenomenon of superconductivity and its potential applications have attracted the at...
Coherent superconducting circuits play a key role in explor-ing the interaction between light and ma...
This thesis presents an effort towards integration of superconductor-contacted carbon nanotubes into...
Superconducting circuits and devices have unique properties that make them interesting from both the...
Quantum information processing systems rely on a broad range of microwave technologies and have spur...
© 2019 IEEE. Over the past two decades, the performance of superconducting quantum circuits has trem...
The research reported here details experimental progress toward future superconductor-based quantum ...
Quantum computers will one day wildly outperform conventional machines. An experimental feat reveals...
We have measured the number of quasiparticles and their lifetime in aluminium superconducting microw...
Here we use superconducting circuits as components for quantum computing and as model systems for no...
Superconducting circuits operated at low temperatures have led to rapid advances in quan...
300 pags.Superconducting quantum circuits are among the most promising solutions for the development...
For four decades semiconductor electronics has followed Moore's law: with each generation of integra...
Microwave techniques have been widely used to characterize properties of conventional superconductin...
Quantum optics in superconducting circuits, known as circuit QED, studies the interaction of photons...
The fascinating phenomenon of superconductivity and its potential applications have attracted the at...
Coherent superconducting circuits play a key role in explor-ing the interaction between light and ma...
This thesis presents an effort towards integration of superconductor-contacted carbon nanotubes into...