Add to ORKGWe review our experiments on the electronic transport properties of atomic contacts between metallic electrodes, in particular superconducting ones. Despite ignorance of the exact atomic configuration, these ultimate quantum point contacts can be manipulated and well characterized in-situ. They allow performing fundamental tests of the scattering theory of quantum transport. In particular, we discuss the case of the Josephson effect
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
The Josephson effect appears when a weak-link establishes phase coherence between two superconductor...
To be published in NatureInternational audienceThe Josephson effect describes the flow of supercurre...
We review our experiments on the electronic transport properties of atomic contacts between metallic...
This thesis presents the results of electrical transport experiments, in particular in the supercond...
Using microfabricated break junctions, we have produced Al and Au contacts consisting of a small num...
We investigate the electronic transport properties of gold point contacts with superconducting alumi...
We have investigated the electronic transport properties of Au quantum point contacts fabricated by ...
In recent years, the fabrication of novel building blocks for quantum computation- and spintronics d...
Electron transport in superconducting devices has recently been discovered to be intimately related ...
The conductance of atomic-sized metallic point contacts is shown to be strongly voltage dependent du...
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
We investigate transport properties of a superconducting junction of many (N≥2) one-dimensiona...
The Josephson effect appears when a weak-link establishes phase coherence between two superconductor...
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
The Josephson effect appears when a weak-link establishes phase coherence between two superconductor...
To be published in NatureInternational audienceThe Josephson effect describes the flow of supercurre...
We review our experiments on the electronic transport properties of atomic contacts between metallic...
This thesis presents the results of electrical transport experiments, in particular in the supercond...
Using microfabricated break junctions, we have produced Al and Au contacts consisting of a small num...
We investigate the electronic transport properties of gold point contacts with superconducting alumi...
We have investigated the electronic transport properties of Au quantum point contacts fabricated by ...
In recent years, the fabrication of novel building blocks for quantum computation- and spintronics d...
Electron transport in superconducting devices has recently been discovered to be intimately related ...
The conductance of atomic-sized metallic point contacts is shown to be strongly voltage dependent du...
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
We investigate transport properties of a superconducting junction of many (N≥2) one-dimensiona...
The Josephson effect appears when a weak-link establishes phase coherence between two superconductor...
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconduct...
The Josephson effect appears when a weak-link establishes phase coherence between two superconductor...
To be published in NatureInternational audienceThe Josephson effect describes the flow of supercurre...