Nonlinear laser dynamics : from quantum dots to cryptography

A distinctive discussion of the nonlinear dynamical phenomena of semiconductor lasers. The book combines recent results of quantum dot laser modeling with mathematical details and an analytic understanding of nonlinear phenomena in semiconductor lasers and points out possible applications of lasers in cryptography and chaos control. This interdisciplinary approach makes it a unique and powerful source of knowledge for anyone intending to contribute to this field of research. By presenting both experimental and theoretical results, the distinguished authors consider solitary lasers with nano-structured material, as well as integrated devices with complex feedback sections. In so doing, they address such topics as the bifurcation theory of systems with time delay, analysis of chaotic dynamics, and the modeling of quantum transport. They also address chaos-based cryptography as an example of the technical application of highly nonlinear laser systems.

Part I Nanostructured Devices Modeling Quantum-Dot-Based Devices Kathy Ludge Exploiting Noise and Polarization Bistability in Vertical-Cavity Surface-Emitting Lasers for Fast Pulse Generation and Logic Operations J. Zamora-Munt and Cristina Masoller Mode Competition Driving Laser Nonlinear Dynamics Marc Sciamanna Quantum Cascade Laser: An Emerging Technology Andreas Wacker Controlling Charge Domain Dynamics in Superlattices M. T. Greenaway, Alexander G. Balanov, E. Scholl, and T.M. Fromhold Bifurcation Study of a Semiconductor Laser with Saturable Absorberand Delayed Optical Feedback Bernd Krauskopf and Jamie J. Walker Modeling of Passively Mode-Locked Semiconductor Lasers Andrei G. Vladimirov, Dmitrii Rachinskii, and Matthias Wolfrum Dynamical and Synchronization Properties of Delay-Coupled Lasers C.M. Gonzalez, M.C. Soriano, M.C. Torrent, J. Garcia-Ojalvo, and Ingo Fischer Complex Networks Based on Coupled Two-Mode Lasers Andreas Amann Part III Synchronization and Cryptography Noise Synchronization and Stochastic Bifurcations in Lasers Sebastian M. Wieczorek Emergence of One- and Two-Cluster States in Populations of Globally Pulse-Coupled Oscillators Leonhard Lucken and Serhiy Yanchuk Broadband Chaos Kristine E. Callan, Lucas Illing, and Daniel J. Gauthier Synchronization of Chaotic Networks and Secure Communication Ido Kanter and Wolfgang Kinzel Desultory Dynamics in Diode-Lasers: Drift, Diffusion, and Delay K. Alan Shore

A distinctive discussion of the nonlinear dynamical phenomena of semiconductor lasers. The book combines recent results of quantum dot laser modeling with mathematical details and an analytic understanding of nonlinear phenomena in semiconductor lasers and points out possible applications of lasers in cryptography and chaos control. This interdisciplinary approach makes it a unique and powerful source of knowledge for anyone intending to contribute to this field of research. By presenting both experimental and theoretical results, the distinguished authors consider solitary lasers with nano-structured material, as well as integrated devices with complex feedback sections. In so doing, they address such topics as the bifurcation theory of systems with time delay, analysis of chaotic dynamics, and the modeling of quantum transport. They also address chaos-based cryptography as an example of the technical application of highly nonlinear laser systems.

A distinctive discussion of the nonlinear dynamical phenomena of semiconductor lasers. The book combines recent results of quantum dot laser modeling with mathematical details and an analytic understanding of nonlinear phenomena in semiconductor lasers and points out possible applications of lasers in cryptography and chaos control. This interdisciplinary approach makes it a unique and powerful source of knowledge for anyone intending to contribute to this field of research. By presenting both experimental and theoretical results, the distinguished authors consider solitary lasers with nano-structured material, as well as integrated devices with complex feedback sections. In so doing, they address such topics as the bifurcation theory of systems with time delay, analysis of chaotic dynamics, and the modeling of quantum transport. They also address chaos-based cryptography as an example of the technical application of highly nonlinear laser systems.

Part I Nanostructured Devices Modeling Quantum-Dot-Based Devices Kathy Ludge Exploiting Noise and Polarization Bistability in Vertical-Cavity Surface-Emitting Lasers for Fast Pulse Generation and Logic Operations J. Zamora-Munt and Cristina Masoller Mode Competition Driving Laser Nonlinear Dynamics Marc Sciamanna Quantum Cascade Laser: An Emerging Technology Andreas Wacker Controlling Charge Domain Dynamics in Superlattices M. T. Greenaway, Alexander G. Balanov, E. Scholl, and T.M. Fromhold Bifurcation Study of a Semiconductor Laser with Saturable Absorberand Delayed Optical Feedback Bernd Krauskopf and Jamie J. Walker Modeling of Passively Mode-Locked Semiconductor Lasers Andrei G. Vladimirov, Dmitrii Rachinskii, and Matthias Wolfrum Dynamical and Synchronization Properties of Delay-Coupled Lasers C.M. Gonzalez, M.C. Soriano, M.C. Torrent, J. Garcia-Ojalvo, and Ingo Fischer Complex Networks Based on Coupled Two-Mode Lasers Andreas Amann Part III Synchronization and Cryptography Noise Synchronization and Stochastic Bifurcations in Lasers Sebastian M. Wieczorek Emergence of One- and Two-Cluster States in Populations of Globally Pulse-Coupled Oscillators Leonhard Lucken and Serhiy Yanchuk Broadband Chaos Kristine E. Callan, Lucas Illing, and Daniel J. Gauthier Synchronization of Chaotic Networks and Secure Communication Ido Kanter and Wolfgang Kinzel Desultory Dynamics in Diode-Lasers: Drift, Diffusion, and Delay K. Alan Shore

A distinctive discussion of the nonlinear dynamical phenomena of semiconductor lasers. The book combines recent results of quantum dot laser modeling with mathematical details and an analytic understanding of nonlinear phenomena in semiconductor lasers and points out possible applications of lasers in cryptography and chaos control. This interdisciplinary approach makes it a unique and powerful source of knowledge for anyone intending to contribute to this field of research. By presenting both experimental and theoretical results, the distinguished authors consider solitary lasers with nano-structured material, as well as integrated devices with complex feedback sections. In so doing, they address such topics as the bifurcation theory of systems with time delay, analysis of chaotic dynamics, and the modeling of quantum transport. They also address chaos-based cryptography as an example of the technical application of highly nonlinear laser systems.

Part I Nanostructured Devices Modeling Quantum-Dot-Based Devices Kathy Ludge Exploiting Noise and Polarization Bistability in Vertical-Cavity Surface-Emitting Lasers for Fast Pulse Generation and Logic Operations J. Zamora-Munt and Cristina Masoller Mode Competition Driving Laser Nonlinear Dynamics Marc Sciamanna Quantum Cascade Laser: An Emerging Technology Andreas Wacker Controlling Charge Domain Dynamics in Superlattices M. T. Greenaway, Alexander G. Balanov, E. Scholl, and T.M. Fromhold Bifurcation Study of a Semiconductor Laser with Saturable Absorberand Delayed Optical Feedback Bernd Krauskopf and Jamie J. Walker Modeling of Passively Mode-Locked Semiconductor Lasers Andrei G. Vladimirov, Dmitrii Rachinskii, and Matthias Wolfrum Dynamical and Synchronization Properties of Delay-Coupled Lasers C.M. Gonzalez, M.C. Soriano, M.C. Torrent, J. Garcia-Ojalvo, and Ingo Fischer Complex Networks Based on Coupled Two-Mode Lasers Andreas Amann Part III Synchronization and Cryptography Noise Synchronization and Stochastic Bifurcations in Lasers Sebastian M. Wieczorek Emergence of One- and Two-Cluster States in Populations of Globally Pulse-Coupled Oscillators Leonhard Lucken and Serhiy Yanchuk Broadband Chaos Kristine E. Callan, Lucas Illing, and Daniel J. Gauthier Synchronization of Chaotic Networks and Secure Communication Ido Kanter and Wolfgang Kinzel Desultory Dynamics in Diode-Lasers: Drift, Diffusion, and Delay K. Alan Shore

A distinctive discussion of the nonlinear dynamical phenomena of semiconductor lasers. The book combines recent results of quantum dot laser modeling with mathematical details and an analytic understanding of nonlinear phenomena in semiconductor lasers and points out possible applications of lasers in cryptography and chaos control. This interdisciplinary approach makes it a unique and powerful source of knowledge for anyone intending to contribute to this field of research. By presenting both experimental and theoretical results, the distinguished authors consider solitary lasers with nano-structured material, as well as integrated devices with complex feedback sections. In so doing, they address such topics as the bifurcation theory of systems with time delay, analysis of chaotic dynamics, and the modeling of quantum transport. They also address chaos-based cryptography as an example of the technical application of highly nonlinear laser systems.

Part I Nanostructured Devices Modeling Quantum-Dot-Based Devices Kathy Ludge Exploiting Noise and Polarization Bistability in Vertical-Cavity Surface-Emitting Lasers for Fast Pulse Generation and Logic Operations J. Zamora-Munt and Cristina Masoller Mode Competition Driving Laser Nonlinear Dynamics Marc Sciamanna Quantum Cascade Laser: An Emerging Technology Andreas Wacker Controlling Charge Domain Dynamics in Superlattices M. T. Greenaway, Alexander G. Balanov, E. Scholl, and T.M. Fromhold Bifurcation Study of a Semiconductor Laser with Saturable Absorberand Delayed Optical Feedback Bernd Krauskopf and Jamie J. Walker Modeling of Passively Mode-Locked Semiconductor Lasers Andrei G. Vladimirov, Dmitrii Rachinskii, and Matthias Wolfrum Dynamical and Synchronization Properties of Delay-Coupled Lasers C.M. Gonzalez, M.C. Soriano, M.C. Torrent, J. Garcia-Ojalvo, and Ingo Fischer Complex Networks Based on Coupled Two-Mode Lasers Andreas Amann Part III Synchronization and Cryptography Noise Synchronization and Stochastic Bifurcations in Lasers Sebastian M. Wieczorek Emergence of One- and Two-Cluster States in Populations of Globally Pulse-Coupled Oscillators Leonhard Lucken and Serhiy Yanchuk Broadband Chaos Kristine E. Callan, Lucas Illing, and Daniel J. Gauthier Synchronization of Chaotic Networks and Secure Communication Ido Kanter and Wolfgang Kinzel Desultory Dynamics in Diode-Lasers: Drift, Diffusion, and Delay K. Alan Shore