Title :
Bloch´s oscillations in quantum circuits with charge discreteness
Author :
Flores, J.C. ; Lazo, E.
Author_Institution :
Phys. Dept., Tarapaca Univ., Arica, Chile
Abstract :
We consider the effect of charge discreteness in a quantum circuit with inductance L. The inductance is pierced by a time-depending external magnetic field, which creates a time-dependent magnetic flux φext(t). When the external magnetic flux varies linearly with time, the induced current in the inductance oscillates with a frequency proportional to the flux variation and charge discreteness. This phenomenon is equivalent to well-known Bloch´s oscillation in crystal or periodic superlattices heterostructures. In fact, formally, the charge discreteness plays the role of a lattice constant. The same phenomenon occurs when the flux variations are replaced by a (constant) electromotive force. We expect this phenomena to be realized in micrometer sized solid-state systems.
Keywords :
circuit oscillations; inductance; lattice constants; magnetic fields; magnetic flux; nanotechnology; network analysis; quantum interference devices; quantum theory; superlattices; Bloch´s oscillations; charge discreteness effects; electromotive force; electronics circuits; flux variation; induced current; inductance; inductance oscillates; lattice constant; micrometer sized solid-state systems; periodic superlattices heterostructures; quantum circuits; quantum mechanics; quantum transport process; time-dependent magnetic flux; time-depending external magnetic field; Equations; Frequency; Inductance; Magnetic circuits; Magnetic fields; Magnetic flux; Quantization; Quantum mechanics; Solid state circuits; Voltage; Circuits theory; electronics circuits; quantum mechanics; quantum transport process;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2005.858604
