The power of the atomistically founded GENERIC approach to nonequilibrium systems is illustrated by coarse graining from the full N-particle phase space to the level of single-particle distribution functions. For a dilute gas, the elements of GENERIC can be evaluated without any fundamental assumptions. Boltzmann's famous kinetic equation is recovered. for LaTeX users @article{HC\"Ottinger2002-27, author = {H. C. \"Ottinger}, title = {GENERIC Projection-Operator Derivation of Boltzmann's Kinetic Equation}, journal = {J. Non-Equilib. Thermodyn.}, volume = {27}, pages = {105-119}, year = {2002} }
\bibitem{HC\"Ottinger2002-27} H.C. \"Ottinger, GENERIC Projection-Operator Derivation of Boltzmann's Kinetic Equation, J. Non-Equilib. Thermodyn. {\bf 27} (2002) 105-119.HC\"Ottinger2002-27 H.C. \"Ottinger GENERIC Projection-Operator Derivation of Boltzmann's Kinetic Equation J. Non-Equilib. Thermodyn.,27,2002,105-119 |