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Optical Generation and Control of Quantum Coherence in Semiconductor Nanostructures
The fundamental concept of quantum coherence plays a central role in quantum physics, cutting across disciplines of quantum optics, atomic and condensed matter physics. Quantum coherence represents a universal property of the quantum s- tems that applies both to light and matter thereby tying together materials and p- nomena. Moreover, the optical coherence can be transferred to the medium through the light-matter interactions. Since the early days of quantum mechanics there has been a desire to control dynamics of quantum systems. The generation and c- trol of quantum coherence in matter by optical means, in particular, represents a viable way to achieve this longstanding goal and semicondu...
L'ecrivain Caribéen, Guerrier de L'imaginaire
This bilingual collection illustrates the concept of the 'Warrior of the Imaginary', as defined by Patrick Chamoiseau, in a multi-faceted corpus of texts. Francophone contributions explore the role of the Caribbean writer in works by Chamoiseau, Édouard Glissant, Daniel Maximin, and Joseph Zobel. Essays in English focus not only on familiar writers (Dionne Brand, Edwidge Danticat, Wilson Harris, Jamaica Kincaid, Caryl Phillips, Derek Walcott) but also on less widely studied voices (Robert Antoni, Albert Helman). Other contributions deal with such 'fighting areas' as Afro-Brazilian music, film, and Mutabaruka's militant poetry. The whole testifies to a surprisingly coherent imaginary, one th...
Semiconductor Modeling Techniques
This book describes the key theoretical techniques for semiconductor research to quantitatively calculate and simulate the properties. It presents particular techniques to study novel semiconductor materials, such as 2D heterostructures, quantum wires, quantum dots and nitrogen containing III-V alloys. The book is aimed primarily at newcomers working in the field of semiconductor physics to give guidance in theory and experiment. The theoretical techniques for electronic and optoelectronic devices are explained in detail.
Capture and Relaxation in Self-Assembled Semiconductor Quantum Dots
This is an overview of different models and mechanisms developed to describe the capture and relaxation of carriers in quantum-dot systems. Despite their undisputed importance, the mechanisms leading to population and energy exchanges between a quantum dot and its environment are not yet fully understood. The authors develop a first-order approach to such effects, using elementary quantum mechanics and an introduction to the physics of semiconductors. The book results from a series of lectures given by the authors at the Master’s level.
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Semiconductor Heteroepitaxy: Growth Characterization And Device Applications
This book develops the mathematics of differential geometry in a way more intelligible to physicists and other scientists interested in this field. This book is basically divided into 3 levels; level 0, the nearest to intuition and geometrical experience, is a short summary of the theory of curves and surfaces; level 1 repeats, comments and develops upon the traditional methods of tensor algebra analysis and level 2 is an introduction to the language of modern differential geometry. A final chapter (chapter IV) is devoted to fibre bundles and their applications to physics. Exercises are provided to amplify the text material.
