Alongside experimental and theoretical work, computer simulation now forms one of the major tools of research in physics. The Monte Carlo method is the most important simulation method in the area of condensed matter physics. This book, written by foremost experts in the field, describes the state of the art of simulation methods in solid state physics. It also reviews selected applications in areas of particular current interest like simulations of growth processes far from equilibrium, interfacial phenomena, quantum and classical fluids, polymers, quantum problems on lattices, and random...
Alongside experimental and theoretical work, computer simulation now forms one of the major tools of research in physics. The Monte Carlo method is th...
The third edition of Dye Lasers has been prepared in response to demand for an updated version of this well-known Topics volume. The classic chapters on continuous-wave dye lasers and properties of dye lasers are unchanged, but are now complemented by an additional chapter on continuous-wave dye lasers that takes account of recent advances. The chapters on principles of operation and mode-locking of dye lasers have been updated. Finally, the chapter on applications, which was originally written when a synopsis was still possible, has been eliminated completely in this edition, since...
The third edition of Dye Lasers has been prepared in response to demand for an updated version of this well-known Topics volume. The classic ch...
In this interdisciplinary book, leading experts in underwater acoustics, seismology, acoustic medical imaging and non-destructive testing present basic concepts as well as the recent advances in imaging. The different subjects tackled show significant similarities.
In this interdisciplinary book, leading experts in underwater acoustics, seismology, acoustic medical imaging and non-destructive testing present b...
This book presents recent and important developments in the field of terahertz radiation, with a particular focus on pulsed terahertz radiation. Situated in the gap between electronics and optics, the terahertz frequency range of the electro-magnetic spectrum has long been neglected by scientists and engineers due to a lack of efficient and affordable terahertz sources and detectors. The advent of femtosecond lasers in the 1980s and photoconductive switches in 1984 have made the terahertz gap accessible, while at the same time advances in electronics and optics have made it narrower....
This book presents recent and important developments in the field of terahertz radiation, with a particular focus on pulsed terahertz radiation. Si...
The book covers the main aspects of dynamic phenomena in confined magnetic structures on a level that researchers find a comprehensive compilation of the current status in the field. Introductory chapters help the newcomer to understand the basic concepts, and more advanced chapters give the current state of the art on most spin dynamic aspects ranging from milliseconds to femtoseconds. Emphasis is placed both on the discussion of the experimental techniques and on the theoretical work. The comprehensive presentation of these developments makes this volume very timely and valuable for every...
The book covers the main aspects of dynamic phenomena in confined magnetic structures on a level that researchers find a comprehensive compilation of ...
Materials science is the prime example of an interdisciplinary science. It - compasses the ?elds of physics, chemistry, material science, electrical en- neering, chemical engineering and other disciplines. Success has been o- standing. World-class accomplishments in materials have been recognized by NobelprizesinPhysicsandChemistryandgivenrisetoentirelynewtechno- gies. Materials science advances have underpinned the technology revolution that has driven societal changes for the last ?fty years. Obviouslytheendisnotinsight Futuretechnology-basedproblemsd-...
Materials science is the prime example of an interdisciplinary science. It - compasses the ?elds of physics, chemistry, material science, electrical e...
Heat transfer laws for conduction, radiation and convection change when the dimensions of the systems in question shrink. The altered behaviours can be used efficiently in energy conversion, respectively bio- and high-performance materials to control microelectronic devices. To understand and model those thermal mechanisms, specific metrologies have to be established. This book provides an overview of actual devices and materials involving micro-nanoscale heat transfer mechanisms. These are clearly explained and exemplified by a large spectrum of relevant physical models, while the most...
Heat transfer laws for conduction, radiation and convection change when the dimensions of the systems in question shrink. The altered behaviours ca...
