Theoretical modeling of the dynamics of a semiconductor laser subject to double-reflector optical feedback
We theoretically model the dynamics of semiconductor lasers subject to the double-reflector feedback. The proposed model is a new modification of the time-delay rate equations of semiconductor lasers under the optical feedback to account for this type of the double-reflector feedback. We examine the...
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| Published in | Journal of experimental and theoretical physics Vol. 122; no. 6; pp. 960 - 969 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Moscow
Pleiades Publishing
01.06.2016
Springer |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1063-7761 1090-6509 |
| DOI | 10.1134/S1063776116060091 |
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| Abstract | We theoretically model the dynamics of semiconductor lasers subject to the double-reflector feedback. The proposed model is a new modification of the time-delay rate equations of semiconductor lasers under the optical feedback to account for this type of the double-reflector feedback. We examine the influence of adding the second reflector to dynamical states induced by the single-reflector feedback: periodic oscillations, period doubling, and chaos. Regimes of both short and long external cavities are considered. The present analyses are done using the bifurcation diagram, temporal trajectory, phase portrait, and fast Fourier transform of the laser intensity. We show that adding the second reflector attracts the periodic and perioddoubling oscillations, and chaos induced by the first reflector to a route-to-continuous-wave operation. During this operation, the periodic-oscillation frequency increases with strengthening the optical feedback. We show that the chaos induced by the double-reflector feedback is more irregular than that induced by the single-reflector feedback. The power spectrum of this chaos state does not reflect information on the geometry of the optical system, which then has potential for use in chaotic (secure) optical data encryption. |
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| AbstractList | We theoretically model the dynamics of semiconductor lasers subject to the double-reflector feedback. The proposed model is a new modification of the time-delay rate equations of semiconductor lasers under the optical feedback to account for this type of the double-reflector feedback. We examine the influence of adding the second reflector to dynamical states induced by the single-reflector feedback: periodic oscillations, period doubling, and chaos. Regimes of both short and long external cavities are considered. The present analyses are done using the bifurcation diagram, temporal trajectory, phase portrait, and fast Fourier transform of the laser intensity. We show that adding the second reflector attracts the periodic and perioddoubling oscillations, and chaos induced by the first reflector to a route-to-continuous-wave operation. During this operation, the periodic-oscillation frequency increases with strengthening the optical feedback. We show that the chaos induced by the double-reflector feedback is more irregular than that induced by the single-reflector feedback. The power spectrum of this chaos state does not reflect information on the geometry of the optical system, which then has potential for use in chaotic (secure) optical data encryption. We theoretically model the dynamics of semiconductor lasers subject to the double-reflector feedback. The proposed model is a new modification of the time-delay rate equations of semiconductor lasers under the optical feedback to account for this type of the double-reflector feedback. We examine the influence of adding the second reflector to dynamical states induced by the single -reflector feedback: periodic oscillations, period doubling, and chaos. Regimes of both short and long external cavities are considered. The present analyses are done using the bifurcation diagram, temporal trajectory, phase portrait, and fast Fourier transform of the laser intensity. We show that adding the second reflector attracts the periodic and period-doubling oscillations, and chaos induced by the first reflector to a route-to-continuous -wave operation. During this operation, the periodic-oscillation frequency increases with strengthening the optical feedback. We show that the chaos induced by the double-reflector feedback is more irregular than that induced by the single-reflector feedback. The power spectrum of this chaos state does not reflect information on the geometry of the optical system, which then has potential for use in chaotic (secure) optical data encryption. We theoretically model the dynamics of semiconductor lasers subject to the double-reflector feedback. The proposed model is a new modification of the time-delay rate equations of semiconductor lasers under the optical feedback to account for this type of the double-reflector feedback. We examine the influence of adding the second reflector to dynamical states induced by the single -reflector feedback: periodic oscillations, period doubling, and chaos. Regimes of both short and long external cavities are considered. The present analyses are done using the bifurcation diagram, temporal trajectory, phase portrait, and fast Fourier transform of the laser intensity. We show that adding the second reflector attracts the periodic and period-doubling oscillations, and chaos induced by the first reflector to a route-to-continuous -wave operation. During this operation, the periodic-oscillation frequency increases with strengthening the optical feedback. We show that the chaos induced by the double-reflector feedback is more irregular than that induced by the single-reflector feedback. The power spectrum of this chaos state does not reflect information on the geometry of the optical system, which then has potential for use in chaotic (secure) optical data encryption. DOI: 10.1134/S1063776116060091 |
| Audience | Academic |
| Author | Ahmed, M. Abdulrhmann, S. Bakry, A. |
| Author_xml | – sequence: 1 givenname: A. surname: Bakry fullname: Bakry, A. organization: Department of Physics, Faculty of Science, King Abdulaziz University, 80203 – sequence: 2 givenname: S. surname: Abdulrhmann fullname: Abdulrhmann, S. organization: Department of Physics, Faculty of Sciences, Jazan University, 114, Department of Physics, Faculty of Sciences, Assiut University – sequence: 3 givenname: M. surname: Ahmed fullname: Ahmed, M. email: mostafa.farghal@mu.edu.eg organization: Department of Physics, Faculty of Science, King Abdulaziz University, 80203, Department of Physics, Faculty of Sciences, Minia University |
| BackLink | https://www.osti.gov/biblio/22617253$$D View this record in Osti.gov |
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| Cites_doi | 10.1109/JLT.1986.1074666 10.1002/jnm.719 10.1103/PhysRevE.78.016210 10.1109/68.58045 10.2971/jeos.2013.13064 10.1109/JSTQE.2003.819500 10.1364/OE.17.020124 10.1002/jnm.772 10.1016/S0167-2789(02)00746-7 10.1103/PhysRevLett.65.1999 10.1109/JLT.1986.1074629 10.7567/JJAP.52.124103 10.1109/3.960 10.1007/978-4-431-54889-8 10.1117/12.482327 10.1109/3.14374 10.1117/12.577510 10.1063/1.1738525 10.1109/JQE.1980.1070479 10.1103/PhysRevLett.63.2224 10.1109/JQE.1985.1072725 10.1002/jnm.639 |
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| References_xml | – reference: SchunkN.PetermannK.IEEE J. Quant. Electron.19882412421988IJQE...24.1242S10.1109/3.960 – reference: LenstraD.VerbeekB. H.BoefA. J. d.IEEE J. Quant. Electron.1985216741985IJQE...21..674L10.1109/JQE.1985.1072725 – reference: MorkJ.MorkJ.TromborgB.Phys. Rev. Lett.19906519991990PhRvL..65.1999M10.1103/PhysRevLett.65.1999 – reference: ToppensA.ParlitzU.Phys. Rev. E2008780162102008PhRvE..78a6210T10.1103/PhysRevE.78.016210 – reference: AgrawalG. P.ShenT. M.J. Lightwave Technol.19864581986JLwT....4...58A10.1109/JLT.1986.1074629 – reference: AhmedM.YamadaM.J. Appl. Phys.20049575732004JAP....95.7573A10.1063/1.1738525 – reference: AhmedM.YamadaM.AbdulrhmannS.Int. J. Num. Model.20092243410.1002/jnm.719 – reference: AbdulrhmannS.Turk. J. Phys.201236225 – reference: DenteG. C.DurkinP. S.WilsonK. A.MoellerC. E.IEEE J. Quant. Electron.19882424411988IJQE...24.2441D10.1109/3.14374 – reference: LangR.KobayashiK.IEEE J. Quant. Electron1980163471980IJQE...16..347L10.1109/JQE.1980.1070479 – reference: WuJ. G.XiaG. Q.WuZ. M.Opt. Express200917201242009OExpr..1720124W10.1364/OE.17.020124 – reference: SacherJ.ElsasserW.GobelE. O.Phys. Rev. Lett.19896322241989PhRvL..63.2224S10.1103/PhysRevLett.63.2224 – reference: AhmedM.BakryA.AltuwirqiR.Jpn. J. Appl. Phys.2013521241032013JaJAP..52l4103A10.7567/JJAP.52.124103 – reference: TromborgB.MorkJ.IEEE Photon. Technol. Lett.199025491990IPTL....2..549T10.1109/68.58045 – reference: AhmedM.MahmoudS. W. Z.YamadaM.Int. J. Num. Model.20072011710.1002/jnm.639 – reference: TkachW. W.ChraplyvyA. R.IEEE J. Lightwave Technol.1986416551986JLwT....4.1655T10.1109/JLT.1986.1074666 – reference: AbdulrhmannS.AhmedM.YamadaM.Proc. SPIE20034986110.1117/12.482327 – reference: AbdulrhmannS.YamadaM.AhmedM.Int. J. Num. Model.20112421810.1002/jnm.772 – reference: AbdulrhmannS.AhmedM.OkamotoT.IEEE J. Sel. Top. Quantum Electron.2003926510.1109/JSTQE.2003.819500 – reference: AhmedM.BakryA.AltuwirqiR.J. Eur. Opt. Soc.2013813006410.2971/jeos.2013.13064 – reference: HongY.LeeandM. W.ShoreK. A.Proc. SPIE20045614722004SPIE.5614...72H10.1117/12.577510 – reference: AhmedM.Physica D20031762122003PhyD..176..212A10.1016/S0167-2789(02)00746-7 – reference: YamadaM.Theory of Semiconductor Lasers201410.1007/978-4-431-54889-8 – reference: AhmedM.MahmoudS. W. Z.YamadaM.Eur. Phys. J. D201241175104 – volume: 4 start-page: 1655 year: 1986 ident: 685_CR1 publication-title: IEEE J. Lightwave Technol. doi: 10.1109/JLT.1986.1074666 – volume: 36 start-page: 225 year: 2012 ident: 685_CR15 publication-title: Turk. J. Phys. – volume: 22 start-page: 434 year: 2009 ident: 685_CR9 publication-title: Int. J. Num. Model. doi: 10.1002/jnm.719 – volume: 78 start-page: 016210 year: 2008 ident: 685_CR21 publication-title: Phys. Rev. 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| Snippet | We theoretically model the dynamics of semiconductor lasers subject to the double-reflector feedback. The proposed model is a new modification of the... |
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| SubjectTerms | Analysis Atoms BIFURCATION CHAOS THEORY Classical and Quantum Gravitation CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS CRYPTOGRAPHY Elementary Particles FEEDBACK FOURIER TRANSFORMATION Lasers MODIFICATIONS Molecules OPTICAL SYSTEMS Optics OSCILLATIONS Particle and Nuclear Physics PERIODICITY Physics Physics and Astronomy Quantum Field Theory Relativity Theory SEMICONDUCTOR LASERS SEMICONDUCTOR MATERIALS SIMULATION Solid State Physics SPECTRA TIME DELAY TRAJECTORIES |
| Title | Theoretical modeling of the dynamics of a semiconductor laser subject to double-reflector optical feedback |
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