04759nam 2200601Ia 450 991078168000332120200520144314.01-61324-561-0(CKB)2550000000044249(EBL)3018077(SSID)ssj0000522422(PQKBManifestationID)12150217(PQKBTitleCode)TC0000522422(PQKBWorkID)10527796(PQKB)10786804(MiAaPQ)EBC3018077(Au-PeEL)EBL3018077(CaPaEBR)ebr10658999(OCoLC)923654618(EXLCZ)99255000000004424920110418d2011 uy 0engur|n|---|||||txtccrEulerian codes for the numerical solution of the kinetic equations of plasmas[electronic resource] /Magdi Shoucri, editorHauppauge, N.Y. Nova Science Publishersc20111 online resource (378 p.)Physics research and technologyDescription based upon print version of record.1-61668-413-5 Includes bibliographical references and index.""EULERIAN CODES FOR THE NUMERICALSOLUTION OF THE KINETIC EQUATIONSOF PLASMAS""; ""CONTENTS""; ""EDITOR�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""""2. The Vlasov�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""""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""""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 E±, 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""""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""""3.1. Steady and Quasisteady States of Plasma Turbulence""Physics research and technology.Kinetic theory of gasesMathematicsPlasma (Ionized gases)Kinetic theory of gasesMathematics.Plasma (Ionized gases)530.4/4Shoucri Magdi Mounir1961-1581904MiAaPQMiAaPQMiAaPQBOOK9910781680003321Eulerian codes for the numerical solution of the kinetic equations of plasmas3863799UNINA03099oam 2200637I 450 991016504050332120240505201930.01-317-23126-01-315-62519-910.4324/9781315625195 (CKB)3710000001060542(MiAaPQ)EBC4809714(OCoLC)973222968(EXLCZ)99371000000106054220180706d2017 uy 0engurcnu||||||||rdacontentrdamediardacarrierEconomics of international environmental agreements a critical approach /edited by M. Ozgur Kayalica, Selim Cagatay and Hakan MijhciFirst edition.London :Routledge,2017.1 online resource (305 pages) illustrations, tablesRoutledge Explorations in Environmental Economics ;491-138-65065-X 1-317-23127-9 Includes bibliographical references at the end of each chapters and index.pt. I. Stability : external and internal -- part II. Heterogeneous countries -- part III. Firm heterogeneity -- part IV. Environmental technology -- part V. International institutions.This book explores why international environmental agreements deal with some problems successfully but fail with others. The chapters address issues that are global in nature, such as: transboundary pollution, provision of global public goods, individual preferences of inequality-aversion, global cooperation, self-enforcing international environmental agreements, emission standards, abatement costs, environmental quota, technology agreement and adoption and international institutions. They examine the necessary conditions for the improved performance of international environmental agreements and how cooperation among countries can be improved.Routledge explorations in environmental economics ;49.Environmental law, InternationalCompliance costsEnvironmental policyInternational cooperationEconomic aspectsSustainable developmentEnvironmental economicssustainable developmentengeurovocinternational agreementengeurovocinternational lawengeurovocEnvironmental law, InternationalCompliance costs.Environmental policyInternational cooperationEconomic aspects.Sustainable development.Environmental economics.sustainable development.international agreement.international law.333.716.20.24EP-CLASSCagatay Selim959041Kayalica M. Ozgur899634Mijhcij Hakan959042FlBoTFGFlBoTFGBOOK9910165040503321Economics of international environmental agreements2172822UNINA