Title :
Derivation of an electronic equivalent of QHE devices
Author_Institution :
Ist. Elettrotecnico Nazionale Galileo Ferraris, Torino, Italy
fDate :
4/1/2001 12:00:00 AM
Abstract :
Models of quantum Hall effect (QHE) devices described by an equivalent circuit are used both to analyze measurement systems and to study QHE physics. Although the most widely used equivalent is the one proposed by Ricketts and Kemeny, various other circuits have been published to suit to different needs in QHE analysis, including a network with only resistors and unity-gain amplifiers. In the following we discuss a general approach to the analysis of the electrical behavior of QHE devices, and show that they can be classified as gyrators. Gyrators are nonreciprocal network elements whose properties are well known from the theory of electrical network. They can be regarded as generalized equivalents of Hall effect devices, thus setting a general framework for the study of the electrical behavior of QHE and the derivation of equivalent circuits. Through the application of this technique, an electronic circuit capable of simulating a QHE device with nonnull longitudinal resistance is derived
Keywords :
Hall effect devices; circuit theory; electric resistance measurement; equivalent circuits; gyrators; measurement standards; quantum Hall effect; Hall effect devices; QHE devices; equivalent circuit; generalized equivalents; gyrators; nonnull longitudinal resistance; nonreciprocal network elements; quantum Hall effect devices; resistors; unity-gain amplifiers; Circuit simulation; Electric resistance; Electrical resistance measurement; Electronic circuits; Equations; Equivalent circuits; Gyrators; Hall effect; Quantum mechanics; Resistors;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
