We investigate the impact of an Ohmic-class environment on the conduction and correlation properties of one-dimensional interacting systems. Interestingly, we reveal that interparticle interactions can be engineered by the environment's noise statistics. Introducing a backscattering impurity to the system, we address Kane-Fisher's metal-to-insulator quantum phase transition in this noisy and realistic setting. Within a perturbative renormalization group approach, we show that the Ohmic environments keep the phase transition intact, while sub- and super-Ohmic environments modify it into a smooth crossover at a scale that depends on the interaction strength within the wire. The system still undergoes a metal-to-insulator-like transition when ...
We revise a phase diagram for the sliding Luttinger liquid (SLL) of coupled one-dimensional quantum ...
We revise a phase diagram for the sliding Luttinger liquid (SLL) of coupled one-dimensional quantum ...
We model one-dimensional transport through each open channel of a quantum wire by a Luttinger liquid...
We investigate the impact of an Ohmic-class environment on the conduction and correlation properties...
We investigate the impact of an Ohmic-class environment on the conduction and correlation properties...
The Tomonaga-Luttinger liquid (TLL) concept is believed to generically describe the strongly correla...
We investigate the effect of both strong and weak potential scattering caused by local impurities an...
The inhomogeneous Tomonaga Luttinger liquid model describing an interacting quantum wire adiabatical...
We investigate the effect of both strong and weak potential scattering caused by local impurities an...
The purpose of this thesis is the study of different low-dimensional systems displaying the physical...
The purpose of this thesis is the study of different low-dimensional systems displaying the physical...
It is now possible to create wires consisting of a single chain of atoms on an insulating substrate,...
Theoretical studies suggest that an interacting one-dimensional electron system does not behave as a...
Theoretical studies suggest that an interacting one-dimensional electron system does not behave as a...
We investigate the effect of both strong and weak potential scattering caused by local impurities an...
We revise a phase diagram for the sliding Luttinger liquid (SLL) of coupled one-dimensional quantum ...
We revise a phase diagram for the sliding Luttinger liquid (SLL) of coupled one-dimensional quantum ...
We model one-dimensional transport through each open channel of a quantum wire by a Luttinger liquid...
We investigate the impact of an Ohmic-class environment on the conduction and correlation properties...
We investigate the impact of an Ohmic-class environment on the conduction and correlation properties...
The Tomonaga-Luttinger liquid (TLL) concept is believed to generically describe the strongly correla...
We investigate the effect of both strong and weak potential scattering caused by local impurities an...
The inhomogeneous Tomonaga Luttinger liquid model describing an interacting quantum wire adiabatical...
We investigate the effect of both strong and weak potential scattering caused by local impurities an...
The purpose of this thesis is the study of different low-dimensional systems displaying the physical...
The purpose of this thesis is the study of different low-dimensional systems displaying the physical...
It is now possible to create wires consisting of a single chain of atoms on an insulating substrate,...
Theoretical studies suggest that an interacting one-dimensional electron system does not behave as a...
Theoretical studies suggest that an interacting one-dimensional electron system does not behave as a...
We investigate the effect of both strong and weak potential scattering caused by local impurities an...
We revise a phase diagram for the sliding Luttinger liquid (SLL) of coupled one-dimensional quantum ...
We revise a phase diagram for the sliding Luttinger liquid (SLL) of coupled one-dimensional quantum ...
We model one-dimensional transport through each open channel of a quantum wire by a Luttinger liquid...