What lurks below the last plateau: Experimental studies of the 0.7 x 2e^2/h conductance anomaly in one-dimensional systems
TLDR
This review reports on experimental studies of fractionally quantised plateaus in semiconductor quantum point contacts and quantum wires, focusing on the 0.7 × 2e(2)/h conductance anomaly, its analogues at higher conductances and the zero-bias peak observed in the dc source-drain bias for conductances less than 1e( 2)/h.Abstract:
The integer quantized conductance of one-dimensional electron systems is a well understood effect of quantum confinement. A number of fractionally quantized plateaus are also commonly observed. They are attributed to many-body effects, but their precise origin is still a matter of debate, having attracted considerable interest over the past 15 years. This review reports on experimental studies of fractionally quantized plateaus in semiconductor quantum point contacts and quantum wires, focusing on the 0.7 x 2e^2/h conductance anomaly, its analogs at higher conductances, and the zero bias peak observed in the d.c. source-drain bias for conductances less than 2e^2/h.read more
Citations
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A review of progress in the physics of open quantum systems: theory and experiment.
Ingrid Rotter,Jonathan P. Bird +1 more
TL;DR: A detailed discussion of the behavior of mesoscopic devices (and other OQSs) in terms of the projection-operator formalism, and discusses experiments on mesoscopic quantum point contacts that provide evidence of the environmentally-mediated coupling of quantum states.
Journal ArticleDOI
A review of progress in the physics of open quantum systems: theory and experiment
Ingrid Rotter,Jonathan P. Bird +1 more
TL;DR: In this paper, the authors provide a detailed discussion of the behavior of OQSs in terms of the projection operator formalism, according to which the system under study is considered to be comprised of a localized region, embedded into a well-defined environment of scattering wavefunctions (with $Q+P=1$).
Journal ArticleDOI
Signatures of interaction-induced helical gaps in nanowire quantum point contacts
Sebastian Heedt,Sebastian Heedt,N. Traverso Ziani,François Crépin,Werner Prost,St. Trellenkamp,Jürgen Schubert,Detlev Grützmacher,Bjoern Trauzettel,Th. Schäpers +9 more
TL;DR: Signatures of spin-momentum-locked gap states in nanowire quantum point contacts that have all-electrical origin could provide the conditions for the quasiparticle excitations required for topological quantum computing as discussed by the authors.
Journal ArticleDOI
Microscopic origin of the '0.7-anomaly' in quantum point contacts.
Florian Bauer,Jan Heyder,E. Schubert,David Borowsky,D. Taubert,Benedikt Bruognolo,Dieter Schuh,Werner Wegscheider,Jan von Delft,Stefan Ludwig +9 more
TL;DR: In this article, a detailed microscopic explanation for both the 0.7-anomaly and the zero-bias peak is proposed, based on the van Hove singularity in the local density of states at the bottom of the lowest one-dimensional subband of the point contact, which causes an anomalous enhancement in the Hartree potential barrier, the magnetic spin susceptibility and the inelastic scattering rate.
Journal ArticleDOI
Odd and even Kondo effects from emergent localization in quantum point contacts
Muhammad Javaid Iqbal,Roi Levy,E. J. Koop,J. B. Dekker,J. P. de Jong,van der Jasper Velde,Dirk Reuter,Andreas D. Wieck,Ramón Aguado,Yigal Meir,van der Caspar Wal +10 more
TL;DR: It is reported that the many-body effects have their origin in one or more spontaneously localized states that emerge from Friedel oscillations in the electron charge density within the QPC channel, and tunable QPCs offer a versatile platform for investigating many- body effects in nanoscale systems.
References
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