Readers of this book will gain a better understanding on the following topics:
• Quantum mechanics including the Boson and Fermion states Fermi-Dirac and Bose-Einstein statistics spin-statistics relation many-body systems of Bosons and Fermions the Fermi-Dirac integrals of the Fermion state densities and transport phenomena in semiconductors
• Dissipative dynamics and quantum systems such as friction diffusion friction-diffusion relation mobility occupation probability dynamics damping spectral width correlation and autocorrelation memory stability bifurcation self-organization and chaos
• Lindblad's theory of open quantum systems through the work of Alicki and Lendi
• Quantum tunneling as an interaction with a system.
• Optical bistability including the fundamental contributions of Carmichael McCall and Bonifacio.
• Master equations based on the microscopic theory of Ford Lewis and O'Connell.
• Field propagation in a semiconductor structure
• Coherent light propagation in the framework of a microscopic model including the refractive index and the Raman frequency shift.
• Heat conversion in the framework of an all-microscopic model of open queantum systems
• Entropy dynamics in a matter field system.
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