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Many natural and novel biotechnological systems are composed of mesoscopic bio and optoelectronic devices or elements. Bio and optoelectronic systems are different complex systems in their composition and application but they have surprising similarities in terms of their spatio-temporal dynamics and control. Their behaviour can easily switch between stable regime to chaos by changing internal and external influencing factors. These book provide a fundamentally analysis of the mechanism relevant for the complex dynamics of the two active systems and a schemes to control them. Space-time…mehr

Produktbeschreibung
Many natural and novel biotechnological systems are composed of mesoscopic bio and optoelectronic devices or elements. Bio and optoelectronic systems are different complex systems in their composition and application but they have surprising similarities in terms of their spatio-temporal dynamics and control. Their behaviour can easily switch between stable regime to chaos by changing internal and external influencing factors. These book provide a fundamentally analysis of the mechanism relevant for the complex dynamics of the two active systems and a schemes to control them. Space-time simulations of the dynamics of molecular motors and semiconductor lasers reveal the influence of internal and external forces on their spatio- temporal dynamics and demonstrate that a suitable configuration can lead to an efficient spatio-temporal control.
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Autorenporträt
She holds a PhD in Physics from University of Surrey, a MSc in Physics from University of Stuttgart and a BSc in Physics from ¿Babes-Bolyai¿ University of Cluj-Napoca. Her research in the area of solid state physics, biophysics, semiconductor lasers,education and leadership has been published in professional journals and books.