TY  - CONF
AU  - DiVincenzo, David
TI  - The quautm Hall effect for microwave devices: the gyrator and the circulator
M1  - FZJ-2016-06628
PY  - 2016
AB  - The Faraday-effect circulator was invented in the 1950's, based on some fundamental theoretical insights about the role of nonreciprocity in transmission systems.  These Faraday devices are used successfully at both optical and at microwave frequencies; the latter have a unique and essential role in making solid-state quantum computing work. Also in the 1950's, microwave circulators based on the Hall effect,were also considered.  It was "proved" then that a Hall bar cannot make a good gyrator (a close cousin to the circulator). This proof is flawed, and we have shown that good gyrators are possible in the quantum Hall regime, if the device is contacted capacitively.  We predict that the resulting Hall circulator can be much more miniaturized than the Faraday kind, and I will discuss some recent preliminary experimental efforts in this direction.  I will discuss the relation of this device functionality to the physics of chiral edge magnetoplasmons in the Hall conductor.
T2  - Universität Strasbourg Seminar
CY  - 7 Nov 2016 - 7 Nov 2016, Strasbourg (Frankreich)
Y2  - 7 Nov 2016 - 7 Nov 2016
M2  - Strasbourg, Frankreich
LB  - PUB:(DE-HGF)6
UR  - https://juser.fz-juelich.de/record/824002
ER  -