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Game Changer
The Premier League is immensely successful, a true worldwide success of the kind not enjoyed by any other English product. Such is the dominance of the Premier League that people have changed their sleeping habits on match days around the world. This fascinating book charts the rise of the Premier League. Few of its founders saw it as a worldwide phenomenon, but the power of TV media, the wider changes in Europe and influx of rich men s money (led by Roman Abramovich) propelled the Premier League into a class of its own. Yet, the Premier League s rise was a spectacular cocktail of events, few of which were properly anticipated let alone planned for. Without any safeguards as to how clubs are governed, or how English football is protected from predators, we are now witnessing a financial crisis of such dimensions that the game may be forced to change in order to survive. Mihir Bose, the UK s leading sports/business journalist, takes us on a mesmerizing journey involving high stakes, multi-billion pound deals, powerful and rich people, and the future of the beautiful game."
Bose-Einstein Condensation
Bose-Einstein Condensation represents a new state of matter and is one of the cornerstones of quantum physics, resulting in the 2001 Nobel Prize. Providing a useful introduction to one of the most exciting field of physics today, this text will be of interest to a growing community of physicists, and is easily accessible to non-specialists alike.
Bose-Einstein Condensation
Among the most remarkable effects that quantum mechanics adds to the catalog of the thermal properties of matter is "condensation" of an ideal gas of identical particles into a single quantum state, the principle of which was discovered in the theory of statistical mechanics by Bose and Einstein in the 1920s. Bose-Einstein condensation (BEC) is a mechanism for producing a macroscopic quantum system, and is exemplary of the macroscopic quantum phenomena of superconductivity and superfluidity.These 15 papers provide an introduction to current work on BEC.
Bose-Condensed Gases at Finite Temperatures
The discovery of Bose–Einstein condensation (BEC) in trapped ultracold atomic gases in 1995 has led to an explosion of theoretical and experimental research on the properties of Bose-condensed dilute gases. The first treatment of BEC at finite temperatures, this book presents a thorough account of the theory of two-component dynamics and nonequilibrium behaviour in superfluid Bose gases. It uses a simplified microscopic model to give a clear, explicit account of collective modes in both the collisionless and collision-dominated regions. Major topics such as kinetic equations, local equilibrium and two-fluid hydrodynamics are introduced at an elementary level. Explicit predictions are worked out and linked to experiments. Providing a platform for future experimental and theoretical studies on the finite temperature dynamics of trapped Bose gases, this book is ideal for researchers and graduate students in ultracold atom physics, atomic, molecular and optical physics and condensed matter physics.
Bose-Einstein Condensation in Dilute Gases
In 1925 Einstein predicted that at low temperatures particles in a gas could all reside in the same quantum state. This gaseous state, a Bose-Einstein condensate, was produced in the laboratory for the first time in 1995 and investigating such condensates has become one of the most active areas in contemporary physics. The study of Bose-Einstein condensates in dilute gases encompasses a number of different subfields of physics, including atomic, condensed matter, and nuclear physics. The authors of this graduate-level textbook explain this exciting new subject in terms of basic physical principles, without assuming detailed knowledge of any of these subfields. Chapters cover the statistical physics of trapped gases, atomic properties, cooling and trapping atoms, interatomic interactions, structure of trapped condensates, collective modes, rotating condensates, superfluidity, interference phenomena, and trapped Fermi gases. Problem sets are also included in each chapter.
The Mathematics of the Bose Gas and its Condensation
This book contains a unique survey of the mathematically rigorous results about the quantum-mechanical many-body problem that have been obtained by the authors in the past seven years. It addresses a topic that is not only rich mathematically, using a large variety of techniques in mathematical analysis, but is also one with strong ties to current experiments on ultra-cold Bose gases and Bose-Einstein condensation. The book provides a pedagogical entry into an active area of ongoing research for both graduate students and researchers. It is an outgrowth of a course given by the authors for graduate students and post-doctoral researchers at the Oberwolfach Research Institute in 2004. The book also provides a coherent summary of the field and a reference for mathematicians and physicists active in research on quantum mechanics.
JAGADEESH CHANDRA BOSE
The great biologist, who showed those plants, too can feel in their own way. He saved money: he bought a small laboratory and built his equipment; and scientists in Europe and America wondered at his discoveries. A true patriot and a great man.
Subhas Chandra Bose
Subhas Chandra Bose continues to be a well-known figure in India more than fifty years after his death, but in the West remains a shadowy figure unknown to many. He made headlines worldwide as the extremist leader of the Provisional Government of Free India after its establishment by the Axis powers during World War II and was viewed as sort of an Asian Hitler or Quisling, but when the Allies crushed Bose's Indian National army, the world seemed quickly to forget him. This work is a biography of Bose, the self-proclaimed Netaji, or "revered leader," who sought to bring down the British Raj by making alliances with Rome, Berlin, and Tokyo during World War II and by helping India thrive econom...
Bose-Einstein Condensation of Excitons and Biexcitons
Bose-Einstein condensation of excitons is a unique effect in which the electronic states of a solid can self-organize to acquire quantum phase coherence. The phenomenon is closely linked to Bose-Einstein condensation in other systems such as liquid helium and laser-cooled atomic gases. This is the first book to provide a comprehensive survey of this field, covering theoretical aspects as well as recent experimental work. After setting out the relevant basic physics of excitons, the authors discuss exciton-phonon interactions as well as the behaviour of biexcitons. They cover exciton phase transitions and give particular attention to nonlinear optical effects including the optical Stark effect and chaos in excitonic systems. The thermodynamics of equilibrium, quasi-equilibrium, and nonequilibrium systems are examined in detail. The authors interweave theoretical and experimental results throughout the book, and it will be of great interest to graduate students and researchers in semiconductor and superconductor physics, quantum optics, and atomic physics.
