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100   $a20110418d2011      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aEulerian codes for the numerical solution of the kinetic equations of plasmas$b[electronic resource] /$fMagdi Shoucri, editor
210   $aHauppauge, N.Y. $cNova Science Publishers$dc2011
215   $a1 online resource (378 p.)
225 1 $aPhysics research and technology
300   $aDescription based upon print version of record.
311   $a1-61668-413-5 
320   $aIncludes bibliographical references and index.
327   $a""EULERIAN CODES FOR THE NUMERICALSOLUTION OF THE KINETIC EQUATIONSOF PLASMAS""; ""CONTENTS""; ""EDITORa???S FOREWORD""; ""DEDICATION""; ""SPLITTING METHODS FOR VLASOV-MAXWELLEQUATIONS IN PLASMA SIMULATIONS""; ""Abstract""; ""IntroductiON""; ""Splitting Scheme""; ""Langmuir Soliton""; ""A. Electron Heating by Langmuir Soliton""; ""B. Propagation of Langmuir Soliton""; ""Electron Cyclotron Wave""; ""Conclusion""; ""References""; ""A VLASOV APPROACH TO COLLISIONLESS SPACEAND LABORATORY PLASMAS""; ""Abstract""; ""1. Introduction""
327   $a""2. The Vlasova???Maxwell Equations as a Hamiltonian Flow onPhase Space""""3. Commonly Used Numerical Schemes""; ""3.1. Particle Methods""; ""3.3. A Comparison between Numerical Techniques""; ""4. The Vlasov Equation""; ""4.1. A Multi-advection Equation""; ""4.2. The Particles Motion, Electrostatic Limit""; ""4.3. Splitting Scheme""; ""4.4. Discrete Representation of the Distribution Function on FunctionalSpaces""; ""4.5. Discontinuous Galerkin Schemes""; ""4.6. Van Leer Interpolation""; ""4.7. Splines Interpolation""; ""4.8. Fourier Decomposition""; ""4.9. Semi-Lagrangian Methods""
327   $a""5. An Application: The Weibel Instability""""Acknowledgements""; ""References""; ""EULERIAN CONSERVATIVE ADVECTION SCHEMESFOR VLASOV SOLVERS""; ""Abstract""; ""1. Introduction""; ""2. 1D Electrostatic Problems""; ""2.1. The Codes Tested""; ""2.2. 1D Electrostatic Test Problems""; ""2.3. Summary of 1D Electrostatic Tests""; ""3. Electromagnetic Problems""; ""3.1. 1D Relativistic EM Vlasov Solvers""; ""3.2. 2D Relativistic EM Vlasov Solvers""; ""4. Solving Amp`ere instead of Poisson""; ""5. Electrostatic Problems with Dissipation, Krook Collisionsand a Particle Source""; ""6. Conclusion""
327   $a""References""""EULERIAN-LAGRANGIAN KINETIC SIMULATIONSOF LASER-PLASMA INTERACTIONS""; ""Abstract""; ""Introduction""; ""2. ELVIS Equations and Numerical Method""; ""2.1. Model and Geometry""; ""2.2. Structure of the Timestep""; ""2.3. f Advection: Cubic Splines""; ""2.4. Krook Operator""; ""2.5. Solving for Ex""; ""2.6. Advance of Transverse Fields EA?±, vys""; ""3. Electrostatic Application: Langmuir-Wave Dispersion""; ""4. Application to Raman Scattering""; ""4.1. Kinetic Inflation and Electron Acoustic Scatter (no Krook Operator)""; ""4.2. Inclusion of a Krook Operator""
327   $a""4.3. Inclusion of Seed Bandwidth""""5. Conclusion""; ""Acknowledgments""; ""References""; ""GYROKINETIC VLASOV SIMULATIONSFOR TURBULENT TRANSPORTIN MAGNETIZED PLASMAS""; ""Abstract""; ""1. Introduction""; ""2. Vlasov Simulation Methods Based on Symplectic Integrators""; ""2.1. Generalization of Splitting Scheme""; ""2.2. Verification of Generalized Splitting Scheme""; ""2.3. Application to Drift Kinetic System""; ""2.4. Verification of Nondissipative Scheme for Drift Kinetic Systems""; ""3. Turbulent Transport and Fine-Scale Distribution Functions""
327   $a""3.1. Steady and Quasisteady States of Plasma Turbulence""
410  0$aPhysics research and technology.
606   $aKinetic theory of gases$xMathematics
606   $aPlasma (Ionized gases)
615  0$aKinetic theory of gases$xMathematics.
615  0$aPlasma (Ionized gases)
676   $a530.4/4
701   $aShoucri$b Magdi Mounir$f1961-$01581904
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910781680003321
996   $aEulerian codes for the numerical solution of the kinetic equations of plasmas$93863799
997   $aUNINA