Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers
Research output: Contribution to conference › Paper
Standard Standard
Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers. / Murakami, A.; Shore, K.A.
2006. Paper presented at Quantum Electronics & Photonics 17, Manchester, UK.
2006. Paper presented at Quantum Electronics & Photonics 17, Manchester, UK.
Research output: Contribution to conference › Paper
HarvardHarvard
Murakami, A & Shore, KA 2006, 'Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers', Paper presented at Quantum Electronics & Photonics 17, Manchester, UK, 3/01/01.
APA
Murakami, A., & Shore, K. A. (2006). Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers. Paper presented at Quantum Electronics & Photonics 17, Manchester, UK.
CBE
Murakami A, Shore KA. 2006. Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers. Paper presented at Quantum Electronics & Photonics 17, Manchester, UK.
MLA
Murakami, A. and K.A. Shore Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers. Quantum Electronics & Photonics 17, Manchester, UK, 03 Jan 0001, Paper, 2006.
VancouverVancouver
Murakami A, Shore KA. Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers. 2006. Paper presented at Quantum Electronics & Photonics 17, Manchester, UK.
Author
RIS
TY - CONF
T1 - Damped harmonic oscillator model for chaos pass filtering in optical chaos communications using injection-locked semiconductor lasers
AU - Murakami, A.
AU - Shore, K.A.
PY - 2006/9/1
Y1 - 2006/9/1
M3 - Paper
T2 - Quantum Electronics & Photonics 17, Manchester, UK
Y2 - 3 January 0001
ER -