Self-stabilization of chaotic domain oscillations in superlattices by time-delayed feedback control

J. Schlesner; A. Amann; N. Janson; W. Just; E. Scholl

doi:10.1088/0268-1242/19/4/013

Self-stabilization of chaotic domain oscillations in superlattices by time-delayed feedback control

J. Schlesner
, A. Amann
, N. Janson
, W. Just
, E. Scholl

Research output: Contribution to journal › Article › peer-review

Abstract

Semiconductor superlattices driven into the regime of negative differential conductivity often exhibit complex or even chaotic self-sustained current oscillations due to travelling field domains. For a reliable operation of a superlattice as an electronic oscillator, such unpredictable and irregular conditions should be avoided. In this work we present a theoretical analysis, proposing a novel scheme to stabilize high-frequency domain oscillations in semiconductor superlattices by a time-delayed feedback loop.

Original language	English
Pages (from-to)	S34-S36
Journal	Semiconductor Science and Technology
Volume	19
Issue number	4 SPEC. ISS.
DOIs	https://doi.org/10.1088/0268-1242/19/4/013
Publication status	Published - Apr 2004
Externally published	Yes

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10.1088/0268-1242/19/4/013

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title = "Self-stabilization of chaotic domain oscillations in superlattices by time-delayed feedback control",

abstract = "Semiconductor superlattices driven into the regime of negative differential conductivity often exhibit complex or even chaotic self-sustained current oscillations due to travelling field domains. For a reliable operation of a superlattice as an electronic oscillator, such unpredictable and irregular conditions should be avoided. In this work we present a theoretical analysis, proposing a novel scheme to stabilize high-frequency domain oscillations in semiconductor superlattices by a time-delayed feedback loop.",

author = "J. Schlesner and A. Amann and N. Janson and W. Just and E. Scholl",

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T1 - Self-stabilization of chaotic domain oscillations in superlattices by time-delayed feedback control

AU - Schlesner, J.

AU - Amann, A.

AU - Janson, N.

AU - Just, W.

AU - Scholl, E.

PY - 2004/4

Y1 - 2004/4

N2 - Semiconductor superlattices driven into the regime of negative differential conductivity often exhibit complex or even chaotic self-sustained current oscillations due to travelling field domains. For a reliable operation of a superlattice as an electronic oscillator, such unpredictable and irregular conditions should be avoided. In this work we present a theoretical analysis, proposing a novel scheme to stabilize high-frequency domain oscillations in semiconductor superlattices by a time-delayed feedback loop.

AB - Semiconductor superlattices driven into the regime of negative differential conductivity often exhibit complex or even chaotic self-sustained current oscillations due to travelling field domains. For a reliable operation of a superlattice as an electronic oscillator, such unpredictable and irregular conditions should be avoided. In this work we present a theoretical analysis, proposing a novel scheme to stabilize high-frequency domain oscillations in semiconductor superlattices by a time-delayed feedback loop.

UR - https://www.scopus.com/pages/publications/1942516985

U2 - 10.1088/0268-1242/19/4/013

DO - 10.1088/0268-1242/19/4/013

M3 - Article

AN - SCOPUS:1942516985

SN - 0268-1242

VL - 19

SP - S34-S36

JO - Semiconductor Science and Technology

JF - Semiconductor Science and Technology

IS - 4 SPEC. ISS.

ER -

Self-stabilization of chaotic domain oscillations in superlattices by time-delayed feedback control

Abstract

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