Inertial confinement fusion reactors based on the gas protection concept (ouvrira une nouvelle fenêtre)Sauvegarder cet élément : Inertial confinement fusion reactors based on the gas protection concepthttps://catalogue-scientifique.canada.ca/record=1306236~S6*frcRechercher Abdel-Khalik, S. I; Rechercher Moses, Gregory A; Rechercher Peterson, R. R; Rechercher Moses, G. A; Rechercher Peterson, Robert RFusion Engineering Program, University of Wisconsin, 1980Livre
MFP, a calculation of radiation mean free paths, ionization and internal energies in noble gases (ouvrira une nouvelle fenêtre)Sauvegarder cet élément : MFP, a calculation of radiation mean free paths, ionization and internal energies in noble gaseshttps://catalogue-scientifique.canada.ca/record=1306456~S6*frcRechercher Peterson, R. R; Rechercher Moses, Gregory A; Rechercher Peterson, Robert R; Rechercher Moses, G. AFusion Engineering Program, University of Wisconsin, 1979Livre
First wall protection in ICF reactors by inert cavity gases (ouvrira une nouvelle fenêtre)Sauvegarder cet élément : First wall protection in ICF reactors by inert cavity gaseshttps://catalogue-scientifique.canada.ca/record=1306458~S6*frcRechercher Moses, Gregory A; Rechercher Peterson, R. R; Rechercher Moses, G. A; Rechercher Peterson, Robert RFusion Engineering Program, University of Wisconsin, 1979Livre
Improvements in the FIRE code for simulating the response of a cavity gas to inertial confinement fusion target explosions (ouvrira une nouvelle fenêtre)Sauvegarder cet élément : Improvements in the FIRE code for simulating the response of a cavity gas to inertial confinement fusion target explosionshttps://catalogue-scientifique.canada.ca/record=1306647~S6*frcRechercher McCarville, T. J; Rechercher Peterson, R. R; Rechercher Moses, Gregory A; Rechercher McCarville, Thomas J; Rechercher Peterson, Robert R; Rechercher Moses, G. AFusion Engineering Program, University of Wisconsin, 1982Livre