Characteristics of chaotic masking in synchronized semiconductor lasers

Atsushi Uchida; Yun Liu; Peter Davis

doi:10.1109/JQE.2003.814366

Characteristics of chaotic masking in synchronized semiconductor lasers

Atsushi Uchida, Yun Liu, Peter Davis

Beam Instrumentation

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

61 Scopus citations

Abstract

Modulations imposed on a chaotic optical signal generated by a semiconductor laser can be suppressed by injecting the signal into another similar laser under conditions for chaos synchronization. This filter effect could be used to recover messages hidden in chaotic carriers for robust and secure communications. We use a numerical model to examine the filter properties and show that the filter can be described in terms of differences in characteristic transmission functions for imposed signal and chaotic carrier in the output of the synchronized laser. The filter effect is shown to be larger for lower frequencies and decreases as frequencies approach the relaxation oscillation frequency of the laser in the gigahertz regime, similar to the response of steady-state injection-locked lasers to small-signal modulation. The filter properties are confirmed in experiments using both single and multimode lasers.

Original language	English
Pages (from-to)	963-970
Number of pages	8
Journal	IEEE Journal of Quantum Electronics
Volume	39
Issue number	8
DOIs	https://doi.org/10.1109/JQE.2003.814366
State	Published - Aug 2003

Funding

Manuscript received June 20, 2002; revised February 20, 2003. This work was supported in part by the Telecommunications Advancement Organization of Japan.

Keywords

Chaos
Chaotic communications
Chaotic masking
Filter
Optical communications
Semiconductor lasers
Small-signal analysis
Synchronization

Access to Document

10.1109/JQE.2003.814366

Cite this

@article{e4f9487432764795aa12013be2b2db6f,

title = "Characteristics of chaotic masking in synchronized semiconductor lasers",

abstract = "Modulations imposed on a chaotic optical signal generated by a semiconductor laser can be suppressed by injecting the signal into another similar laser under conditions for chaos synchronization. This filter effect could be used to recover messages hidden in chaotic carriers for robust and secure communications. We use a numerical model to examine the filter properties and show that the filter can be described in terms of differences in characteristic transmission functions for imposed signal and chaotic carrier in the output of the synchronized laser. The filter effect is shown to be larger for lower frequencies and decreases as frequencies approach the relaxation oscillation frequency of the laser in the gigahertz regime, similar to the response of steady-state injection-locked lasers to small-signal modulation. The filter properties are confirmed in experiments using both single and multimode lasers.",

keywords = "Chaos, Chaotic communications, Chaotic masking, Filter, Optical communications, Semiconductor lasers, Small-signal analysis, Synchronization",

author = "Atsushi Uchida and Yun Liu and Peter Davis",

year = "2003",

month = aug,

doi = "10.1109/JQE.2003.814366",

language = "English",

volume = "39",

pages = "963--970",

journal = "IEEE Journal of Quantum Electronics",

issn = "0018-9197",

publisher = "Institute of Electrical and Electronics Engineers",

number = "8",

}

TY - JOUR

T1 - Characteristics of chaotic masking in synchronized semiconductor lasers

AU - Uchida, Atsushi

AU - Liu, Yun

AU - Davis, Peter

PY - 2003/8

Y1 - 2003/8

N2 - Modulations imposed on a chaotic optical signal generated by a semiconductor laser can be suppressed by injecting the signal into another similar laser under conditions for chaos synchronization. This filter effect could be used to recover messages hidden in chaotic carriers for robust and secure communications. We use a numerical model to examine the filter properties and show that the filter can be described in terms of differences in characteristic transmission functions for imposed signal and chaotic carrier in the output of the synchronized laser. The filter effect is shown to be larger for lower frequencies and decreases as frequencies approach the relaxation oscillation frequency of the laser in the gigahertz regime, similar to the response of steady-state injection-locked lasers to small-signal modulation. The filter properties are confirmed in experiments using both single and multimode lasers.

AB - Modulations imposed on a chaotic optical signal generated by a semiconductor laser can be suppressed by injecting the signal into another similar laser under conditions for chaos synchronization. This filter effect could be used to recover messages hidden in chaotic carriers for robust and secure communications. We use a numerical model to examine the filter properties and show that the filter can be described in terms of differences in characteristic transmission functions for imposed signal and chaotic carrier in the output of the synchronized laser. The filter effect is shown to be larger for lower frequencies and decreases as frequencies approach the relaxation oscillation frequency of the laser in the gigahertz regime, similar to the response of steady-state injection-locked lasers to small-signal modulation. The filter properties are confirmed in experiments using both single and multimode lasers.

KW - Chaos

KW - Chaotic communications

KW - Chaotic masking

KW - Filter

KW - Optical communications

KW - Semiconductor lasers

KW - Small-signal analysis

KW - Synchronization

UR - https://www.scopus.com/pages/publications/0043173949

U2 - 10.1109/JQE.2003.814366

DO - 10.1109/JQE.2003.814366

M3 - Article

AN - SCOPUS:0043173949

SN - 0018-9197

VL - 39

SP - 963

EP - 970

JO - IEEE Journal of Quantum Electronics

JF - IEEE Journal of Quantum Electronics

IS - 8

ER -

Characteristics of chaotic masking in synchronized semiconductor lasers

Abstract

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Cite this