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  • Cited by 79
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    This (lowercase (translateProductType product.productType)) has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Nguimdo, Romain Modeste 2018. Constructing Hopf bifurcation lines for the stability of nonlinear systems with two time delays. Physical Review E, Vol. 97, Issue. 3,
    Longhi, S. and Feng, L. 2018. Invited Article: Mitigation of dynamical instabilities in laser arrays via non-Hermitian coupling. APL Photonics, Vol. 3, Issue. 6, p. 060802.
    Gorbunkov, M V Maslova, Yu Ya Petukhov, V A Semenov, M A Shabalin, Yu V and Tunkin, V G 2018. Harmonic mode-locking and sub-round-trip time nonlinear dynamics of electro-optically controlled solid state laser. Journal of Physics: Conference Series, Vol. 990, Issue. , p. 012004.
    Lenstra, Daan Herdt, Andreas Weidmann, Markus Mohr, Till Elsaesser, Wolfgang E. Panajotov, Krassimir Sciamanna, Marc and Michalzik, Rainer 2018. Theory of delay-coupled nonidentical quantum cascade lasers. p. 16.
    Jaurigue, Lina 2017. Passively Mode-Locked Semiconductor Lasers. p. 1.
    Jaurigue, Lina 2017. Passively Mode-Locked Semiconductor Lasers. p. 33.
    Doedel, Eusebius J. and L., Carlos L. Pando 2017. Periodic orbits and synchronous chaos in lasers unidirectionally coupled via saturable absorbers. The European Physical Journal Special Topics, Vol. 226, Issue. 3, p. 467.
    Redlich, Christoph Lingnau, Benjamin Huang, Heming Raghunathan, Ravi Schires, Kevin Poole, Philip Grillot, Frederic and Ludge, Kathy 2017. Linewidth Rebroadening in Quantum Dot Semiconductor Lasers. IEEE Journal of Selected Topics in Quantum Electronics, Vol. 23, Issue. 6, p. 1.
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    Laser Dynamics
    • Online ISBN: 9780511776908
    • Book DOI: https://doi.org/10.1017/CBO9780511776908
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Book description

Bridging the gap between laser physics and applied mathematics, this book offers a new perspective on laser dynamics. Combining fresh treatments of classic problems with up-to-date research, asymptotic techniques appropriate for nonlinear dynamical systems are shown to offer a powerful alternative to numerical simulations. The combined analytical and experimental description of dynamical instabilities provides a clear derivation of physical formulae and an evaluation of their significance. Starting with the observation of different time scales of an operating laser, the book develops approximation techniques to systematically explore their effects. Laser dynamical regimes are introduced at different levels of complexity, from standard turn-on experiments to stiff, chaotic, spontaneous or driven pulsations. Particular attention is given to quantitative comparisons between experiments and theory. The book broadens the range of analytical tools available to laser physicists and provides applied mathematicians with problems of practical interest, making it invaluable for graduate students and researchers.

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