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Synchronizing and controlling hyperchaos in complex Lorentz-Haken systems

Abstract

Synchronizing hyperchaos is realized by the drive-response relationship in the complex Lorentz-Haken system and its higher-order cascading systems for the first time. Controlling hyperchaos is achieved by the intermittent proportional feedback to all of the drive (master) system variables. The complex Lorentz-Haken system describes the detuned single-mode laser and is taken as a typical example of hyperchaotic synchronization to clarify our ideas and results. The ideas and concepts could be extended to some nonlinear dynamical systems and have prospects for potential applications, for example. to laser, electronics, plasma, cryptography, communication, chemical and biological systems and so on. (8 figs., 2 tabs.).
Authors:
Jinqing, Fang [1] 
  1. Academia Sinica, Beijing, BJ (China). Inst. of Atomic Energy
Publication Date:
Mar 01, 1995
Product Type:
Technical Report
Report Number:
CNIC-00944; IAE-0145.
Reference Number:
SCA: 990200; PA: AIX-27:002950; EDB-96:033716; NTS-96:009404; SN: 96001526262
Resource Relation:
Other Information: PBD: Mar 1995
Subject:
99 MATHEMATICS, COMPUTERS, INFORMATION SCIENCE, MANAGEMENT, LAW, MISCELLANEOUS; SYNCHRONIZATION; FLUCTUATIONS; COMPLEX MANIFOLDS; CONTROL; LASERS; NONLINEAR PROBLEMS; PLASMA; USES
OSTI ID:
169845
Research Organizations:
China Nuclear Information Centre, Beijing, BJ (China)
Country of Origin:
China
Language:
English
Other Identifying Numbers:
Other: ON: DE96608704; TRN: CN9501850002950
Availability:
INIS; OSTI as DE96608704
Submitting Site:
INIS
Size:
21 p.
Announcement Date:

Citation Formats

Jinqing, Fang. Synchronizing and controlling hyperchaos in complex Lorentz-Haken systems. China: N. p., 1995. Web.
Jinqing, Fang. Synchronizing and controlling hyperchaos in complex Lorentz-Haken systems. China.
Jinqing, Fang. 1995. "Synchronizing and controlling hyperchaos in complex Lorentz-Haken systems." China.
@misc{etde_169845,
title = {Synchronizing and controlling hyperchaos in complex Lorentz-Haken systems}
author = {Jinqing, Fang}
abstractNote = {Synchronizing hyperchaos is realized by the drive-response relationship in the complex Lorentz-Haken system and its higher-order cascading systems for the first time. Controlling hyperchaos is achieved by the intermittent proportional feedback to all of the drive (master) system variables. The complex Lorentz-Haken system describes the detuned single-mode laser and is taken as a typical example of hyperchaotic synchronization to clarify our ideas and results. The ideas and concepts could be extended to some nonlinear dynamical systems and have prospects for potential applications, for example. to laser, electronics, plasma, cryptography, communication, chemical and biological systems and so on. (8 figs., 2 tabs.).}
place = {China}
year = {1995}
month = {Mar}
}