Add to ORKGWe theoretically demonstrate that the transport inefficiency recently found experimentally for branched-out mesoscopic networks can also be observed in a quantum ring of finite width with an attached central horizontal branch. This is done by investigating the time evolution of an electron wave packet in such a system. Our numerical results show that the conductivity of the ring does not necessary improve if one adds an extra channel. This ensures that there exists a quantum analog of the Braess paradox, originating from quantum scattering and interference
We designed a device consisting of two concentric quantum rings in a GaAsAlGaAs heterostructure. The...
Several of the most interesting quantum effects can or could be observed in nanoscopic systems. For ...
Many of the most intriguing quantum effects are observed or could be measured in transport experimen...
Invited talk by SHInternational audienceThe Braess paradox, known for traffic and other classical ne...
International audienceWe present evidence for a counterintuitive behavior of semiconductor mesoscopi...
The Braess paradox, known for traffic and other classical networks, lies in the fact that adding a n...
This paper deals with the Braess paradox in quantum transport. The scattering matrix formalism is us...
By combining quantum simulations of electron transport and scanning-gate microscopy, we have shown t...
A counter-intuitive behavior analogous to the Braess paradox is encountered in a two-terminal mesosc...
The Braess Paradox is the counterintuitive phenomenon that can occur in a user-optimized network sys...
Advances in growth techniques have made possible the fabrication of quasi one-dimensional semiconduc...
Quantum transport in the open-system mesoscopic rings with stubs in the absence of magnetic field is...
We investigate magneto-transport properties of a θ shaped three-arm mesoscopic ring where ...
While equilibrium properties of mesoscopic systems are well understood, many questions are still deb...
We investigated the transmission probability of a single electron transmission through a quantum rin...
We designed a device consisting of two concentric quantum rings in a GaAsAlGaAs heterostructure. The...
Several of the most interesting quantum effects can or could be observed in nanoscopic systems. For ...
Many of the most intriguing quantum effects are observed or could be measured in transport experimen...
Invited talk by SHInternational audienceThe Braess paradox, known for traffic and other classical ne...
International audienceWe present evidence for a counterintuitive behavior of semiconductor mesoscopi...
The Braess paradox, known for traffic and other classical networks, lies in the fact that adding a n...
This paper deals with the Braess paradox in quantum transport. The scattering matrix formalism is us...
By combining quantum simulations of electron transport and scanning-gate microscopy, we have shown t...
A counter-intuitive behavior analogous to the Braess paradox is encountered in a two-terminal mesosc...
The Braess Paradox is the counterintuitive phenomenon that can occur in a user-optimized network sys...
Advances in growth techniques have made possible the fabrication of quasi one-dimensional semiconduc...
Quantum transport in the open-system mesoscopic rings with stubs in the absence of magnetic field is...
We investigate magneto-transport properties of a θ shaped three-arm mesoscopic ring where ...
While equilibrium properties of mesoscopic systems are well understood, many questions are still deb...
We investigated the transmission probability of a single electron transmission through a quantum rin...
We designed a device consisting of two concentric quantum rings in a GaAsAlGaAs heterostructure. The...
Several of the most interesting quantum effects can or could be observed in nanoscopic systems. For ...
Many of the most intriguing quantum effects are observed or could be measured in transport experimen...