Add to ORKGPhase-coherent electron transport in metals and semiconductors forms the basis of the ¯eld called "mesoscopic physics. " Underpinning this ¯eld are two concepts that became widely appreciated in the 1980's: ¯rst, static disorder does not destroy phase coherence of conduction electrons, hence quantum interference phenomena are observable even i
Just like photons propagating through space, electrons flowing through a crystalline metal travel in...
Electron decoherence at low temperatures is important for the proper understanding of the metallic g...
The existing theory of correlated single-electron tunneling in the double normalmetal tunnel junctio...
Mesoscopic physics is the area of solid state physics that covers the transition regime between macr...
Electronic quantum phase coherence results in interferences in mesoscopic metal circuits. The first ...
We study the influence of a DC bias voltage V on quantum interference corrections to the measured d...
The quantum phenomena of tunneling and interference show up not only in the microscopic world of ato...
An ongoing tendency in modern material science is to propose and to investigate systems containing s...
Corrections to the classically predicted electrical conductivity in normal metals arise due to the q...
4 pages, 4 figuresInternational audienceWe present phase coherence time measurements in quasi-one-di...
International audienceQuantum interferences in disordered mesoscopic insulators is already a quite l...
This article discusses three experiments on the properties of electronic transport at the mesoscopi...
16 pages, 5 figuresInternational audienceThe time over which an electron can maintain its phase cohe...
The understanding of mesoscopic transport has now attained an ultimate simplicity. Indeed, orthod...
This thesis is concerned with the theoretical study of the transport in small conductors at low temp...
Just like photons propagating through space, electrons flowing through a crystalline metal travel in...
Electron decoherence at low temperatures is important for the proper understanding of the metallic g...
The existing theory of correlated single-electron tunneling in the double normalmetal tunnel junctio...
Mesoscopic physics is the area of solid state physics that covers the transition regime between macr...
Electronic quantum phase coherence results in interferences in mesoscopic metal circuits. The first ...
We study the influence of a DC bias voltage V on quantum interference corrections to the measured d...
The quantum phenomena of tunneling and interference show up not only in the microscopic world of ato...
An ongoing tendency in modern material science is to propose and to investigate systems containing s...
Corrections to the classically predicted electrical conductivity in normal metals arise due to the q...
4 pages, 4 figuresInternational audienceWe present phase coherence time measurements in quasi-one-di...
International audienceQuantum interferences in disordered mesoscopic insulators is already a quite l...
This article discusses three experiments on the properties of electronic transport at the mesoscopi...
16 pages, 5 figuresInternational audienceThe time over which an electron can maintain its phase cohe...
The understanding of mesoscopic transport has now attained an ultimate simplicity. Indeed, orthod...
This thesis is concerned with the theoretical study of the transport in small conductors at low temp...
Just like photons propagating through space, electrons flowing through a crystalline metal travel in...
Electron decoherence at low temperatures is important for the proper understanding of the metallic g...
The existing theory of correlated single-electron tunneling in the double normalmetal tunnel junctio...