In recent years the subject of relativistic fluid dynamics has found substantial applications in astrophysics and cosmology (theories of gravitational collapse, models of neutron stars, galaxy formation), as well as in plasma physics (relativistic fluids have been considered as models for relativistic particle beams) and nuclear physics (relativistic fluids are currently used in the analysis of the heavy ion reactions). Modern methods of analysis and differential geometry have now also been introduced. The International C.I.M.E. Course brought together expertise and interest from several areas (astrophysics, plasma physics, nuclear physics, mathematical methods) to create an appropriate arena for discussion and exchange of ideas. The main lecture courses introduced the most significant aspects of the subject and were delivered by leading specialists. The notes of these have been written up for this volume and constitute an up-to-date and thorough treatment of these topics. Several contributions from the seminars on specialized topics of complementary interest to the courses are also included.
Contents: Main lectures: B. Carter: Covariant Theory of Conductivity in Ideal Fluid or Solid Media.- D. Holm: Hamilton Techniques for Relativistic Fluid Dynamics and Stability Theory.- W. Israel: Covariant Fluid Mechanics and Thermodynamics: An Introduction.- H. Weitzner: Relativistic Plasmas.- Contributed papers: A.M. Anile, S. Pennisi: An Improved Relativistic Warm Plasma Model.- I. Muller: Relativistic Extended Thermodynamics II.- T. Ruggeri: Relativistic Extended Thermodynamics: General Assumptions and Mathematical Procedure.- D. Strottman: Relativistic Hydrodynamics and Heavy Ion Reactions.- C. van Weert: Some Problems in Relativistic Hydrodynamics.
Series: Lecture Notes in Mathematics
Number Of Pages: 315
Published: 1st September 1989
Publisher: Springer-Verlag Berlin and Heidelberg Gmbh & Co. Kg
Country of Publication: DE
Dimensions (cm): 23.39 x 15.6
Weight (kg): 0.45