Ouvrages publiés en collaboration (4)
  1. 1. Rivet, J.-P., & Boon, J.-P. (2001). Lattice gas hydrodynamics. Cambridge: Cambridge University Press.
  2. 2. Boon, J.-P., & Yip, S. (1991). Molecular Hydrodynamics. New York: Dover Publications.
  3. 3. Nysenolc, A., & Boon, J.-P. (1988). Redécouvrir le temps. Bruxelles: Editions de l'Université de Bruxelles.
  4. 4. Boon, J.-P., & Yip, S. (1980). Molecular hydrodynamics. New York: McGraw-Hill Inc.
    5.   Parties d'ouvrages collectifs (11)
  5. 1. Boon, J.-P. (2006). Theoretical Models for Bacterial Motion and Chemotaxis. In Membranes, dissipative structures, and evolution (pp. 169-190). New-York: John Wiley & Sons.(Advances in chemical physics, 29). doi:10.1002/9780470143810.ch10
  6. 2. Boon, J.-P., & Yip, S. (2002). Molecular hydrodynamics. In R. A. Meyers (Ed.), Encyclopedia of physical sciences and technology. New York: Academic Press Inc.
  7. 3. Boon, J.-P., & Prigogine, I. (1998). Le temps dans la forme musicale. In E. Darbellay (Ed.), Le temps et la forme: Pour une épistémologie de la connaissance musicale (pp. 139-164). Genève: Editions Droz.(Recherches et rencontres).
  8. 4. Prigogine, I., & Boon, J.-P. (1998). Temps et complexité en physique et en musique. In E. Darbellay (Ed.), Le temps et la forme : pour une épistémologie de la connaissance musicale. Genève: Librairie Droz.(Recherches et rencontres, 10).
  9. 5. Tribel, O., & Boon, J.-P. (1996). Levy laws for lattice gas automata. In A. Lawniczak & R. Kapral (Eds.), Pattern formation and lattice gas automata (pp. 227-237). Providence: American mathematical society.(Fields Institute Communications, 6).
  10. 6. Weimar, J. R., & Boon, J.-P. (1996). New class of cellular automata for reaction-diffusion systems applied to the CIMA reaction. In A. Lawniczak & R. Kapral (Eds.), Pattern formation and lattice gas automata (pp. 239-247). Providence: American mathematical society.(Fields Institute Communications, 6).
  11. 7. Boon, J.-P., & Noullez, A. (1987). Lattice gas hydrodynamics. In Special course on modern theoretical and experimental approaches to turbulent flow structure and its modelling. AGARD (Advisory Group for Aerospace Research & Development).(Paper Reprint from Report, 755).
  12. 8. Herpigny, B., & Boon, J.-P. (1980). Depolarized Light Scattering from Concentrated Particle Suspensions. In V. Degiorgio, M. Corti, & M. Giglio (Eds.), Light Scattering in Liquids and Macromolecular Solutions (pp. 91-96). New York: Plenum Press.
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