4681Annual reviews of computational physics : theme issue : scaling and disordered systems
This volume is based on an international school, "Scaling and Disordered Systems" organized by M.R.H. Khajehpour, M.R. Kolahchi and M. Sahimi. Despite the common theme, it covers fields as diverse as basic and applied percolation, and biological prey-predator and ageing simulations. The advantages of computer simulation thus become particularly clear in the reviews, which have been written by experts...
4682Annual reviews of computational physics I
Introducing to computational aspects of damage spreading, monte carlo simulations of dilute ising models, interfacial dynamics in disordered magnets: relaxation, critical dynamics, and domain growth.
4683Annual reviews of computational physics III
Covers all areas of computational physics, collecting together reviews which illustrate the state-of-the-art regarding methods and results. This volume discusses such topics as biologically motivated simulations, glasses, and world-record molecular dynamics.
4684Annual reviews of computational physics IV
Simulations of Magnetic Fluids (M J P Nijmeijer & J J Weis); Critical Phenomena in Simple and Complex Fluids (N B Wilding); Quantum Monte Carlo on a Lattice: The World Line Algorithm (G G Batrouni); Computer Simulation of Quantum Phenomena in Nanoscale Devices (H De Raedt); Tight-Binding Molecular Dynamics (L Colombo); Adsorption Desorption Processes and Related Quantum Spin Models (M D Grynberg); Series Expansions versus Simulations (J Adler); High Speed Algorithms and Simulations of the Critical Dynamics of the Ising Model (H-O Heuer); Larson models of Amphiphiles in Complex Fluids (T B Liverpool); Monte Carlo Simulations of Biological Ageing (A T Bernardes)...
4685Annual reviews of computational physics IX
The 9th volume of "Annual Reviews of Computational Physics" has as a special feature a comprehensive compendium of interatomic potentials as used for materials properties. Other articles deal with simulations of magnetic nanostructures, improved Monte Carlo methods (eg. for nucleation studies in Ising models), fluid dynamics with large mean free paths, the growing field of "sociophysics", and teaching of undergraduate computational physics (including an introduction to Java).....
4686Annual reviews of computational physics V
In this volume, the simulation of forest fires and other flames is presented in the first two articles. The next two deal with quantum simulations, in particular for two dimensions (quantum Hall effect and monolayers). Biology is connected with the last two articles: we learn from biological evolution to complement computer hardware and software with evolware, or we simulate immunology.
4687Annual reviews of computational physics VI
The sixth volume of the series covers topics ranging from the generation of good random numbers to statistical physics, quantum mechanics, quantum computers and polymers, to protein folding and immunology simulations. It should thus be of interest not only to computational physicists but also to experts in computer science as well as theoretical biology.
4688Annual reviews of computational physics VII
Focusing on applications, from Ising models to the formation of small clusters and phase ordering in fluids, to the structure of concrete, to the growth of cities built from it, to the traffic jams and the biology of life in the cities, and to the marketing of products to consumers. Thus it documents the interdisciplinary research potential of computational physics.
4689Annual update in intensive care and emergency medicine 2019
The Annual Update compiles reviews of the most recent developments in experimental and clinical intensive care and emergency medicine research and practice in one comprehensive reference book. The chapters are written by well recognized experts in these fields. The book is addressed to everyone involved in internal medicine, anesthesia, surgery, pediatrics, intensive care and emergency medicine.
4690Annuals reviews of computational physics II
This series of books covers all areas of computational physics, collecting together reviews where a newcomer can learn about the state of the art regarding methods and results. The present volume emphasizes simulations of specific materials (polymers, water and amphiphilic systems), and then discusses surfaces, percolation and critical slowing-down. Also emphasized is complex optimization, such as spin glasses, simulated annealing and the graph colouring problem.