Add to ORKGA quantum waveguide theory is proposed for hole transport in the mesoscopic structures, including the band mixing effect. We found that due to the interference between the 'light' hole and 'heavy' wave, the transmission and reflection coefficients oscillate more irregularly as a function of incident wave vector geometry parameters. Furthermore conversion between the heavy hole and light hole states occurs at the intersection. (C) 2003 Elsevier Ltd. All rights reserved
A quantum interference effect is discussed for subgap tunneling over a distance comparable to the co...
A quantum interference effect is discussed for subgap tunneling over a distance comparable to the co...
Time-dependent analysis of the quantum mechanical wavefunction has been performed on a variety of qu...
A one-dimensional quantum waveguide theory for mesoscopic structures is proposed, and the boundary c...
In this paper, we present a highly accurate and effective theoretical model to study electron transp...
Peculiar waveguide properties of quantum waveguides are revealed using a new transfer matrix based a...
Peculiar waveguide properties of quantum waveguides are revealed using a new transfer matrix based a...
Quantum interference effects for a mesoscopic loop with three leads are investigated by using a one-...
Quantum transport in the open-system mesoscopic rings with stubs in the absence of magnetic field is...
Recognizing the computational difficulty due to the exponential behavior of the evanescent states in...
The paper explores the system of quantum waveguides and resonators. It suggests a solvable model of ...
Recent advances in semiconductor technology have made possible the fabrication of structures whose d...
The main subject of this Thesis is optical properties of quantum point contact systems and their inf...
We investigate the electron transmission through a structure of serial mesoscopic metallic rings cou...
Time-dependent analysis of the quantum mechanical wavefunction has been performed on a variety of qu...
A quantum interference effect is discussed for subgap tunneling over a distance comparable to the co...
A quantum interference effect is discussed for subgap tunneling over a distance comparable to the co...
Time-dependent analysis of the quantum mechanical wavefunction has been performed on a variety of qu...
A one-dimensional quantum waveguide theory for mesoscopic structures is proposed, and the boundary c...
In this paper, we present a highly accurate and effective theoretical model to study electron transp...
Peculiar waveguide properties of quantum waveguides are revealed using a new transfer matrix based a...
Peculiar waveguide properties of quantum waveguides are revealed using a new transfer matrix based a...
Quantum interference effects for a mesoscopic loop with three leads are investigated by using a one-...
Quantum transport in the open-system mesoscopic rings with stubs in the absence of magnetic field is...
Recognizing the computational difficulty due to the exponential behavior of the evanescent states in...
The paper explores the system of quantum waveguides and resonators. It suggests a solvable model of ...
Recent advances in semiconductor technology have made possible the fabrication of structures whose d...
The main subject of this Thesis is optical properties of quantum point contact systems and their inf...
We investigate the electron transmission through a structure of serial mesoscopic metallic rings cou...
Time-dependent analysis of the quantum mechanical wavefunction has been performed on a variety of qu...
A quantum interference effect is discussed for subgap tunneling over a distance comparable to the co...
A quantum interference effect is discussed for subgap tunneling over a distance comparable to the co...
Time-dependent analysis of the quantum mechanical wavefunction has been performed on a variety of qu...