THE ASTROPHYSICAL JOURNAL, 522 : 727È752, 1999 September[removed]The American Astronomical Society. All rights reserved. Printed in U.S.A. RELATIVISTIC JET FORMATION FROM BLACK HOLE MAGNETIZED ACCRETION DISKS : METHO - Shock Journal - Document - PDFSEARCH.IO - Document Search Engine

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	THE ASTROPHYSICAL JOURNAL, 522 : 727È752, 1999 September[removed]The American Astronomical Society. All rights reserved. Printed in U.S.A. RELATIVISTIC JET FORMATION FROM BLACK HOLE MAGNETIZED ACCRETION DISKS : METHO Add to Reading List Document Date: 2002-08-05 20:43:31 Open Document File Size: 2,56 MB Share Result on Facebook City Tokyo / Kyoto / / Company Pearson / B AB / GM / / Country Japan / / Facility Kyoto University / Toyama University / Japan AND KAZUNARI SHIBATA1 AND TAKAHIRO KUDOH National Astronomical Observatory / / IndustryTerm free-fall gas equation / energy conservation law / proper total energy density / charge conservation law / gravitational energy / relativistic total energy / relativistic kinetic energy / energy conservation equation / gas pressure / analytical solutions / gas-pressureÈdriven jet / energy momentum tensor / gas-pressureÈdriven part / asymptotic solutions / pressure gas / gas-pressure force / self-similar solutions / dense disk gas / disk gas / jet formation energy / negative energy motion / high gas pressure resulting / ejected gas / transonic solution / energy / / Organization Kyoto University / GENERAL RELATIVISTIC MAGNETOHYDRODYNAMIC NUMERICAL CODE SHINJI KOIDE Faculty of Engineering / Toyama University / American Astronomical Society / / Person TAKAHIRO KUDOH / / Product Wald solution / Wald / / PublishedMedium THE ASTROPHYSICAL JOURNAL / / Technology X-ray / simulation / / SocialTag Astrophysics Space plasmas Jets Magnetohydrodynamics Relativistic jet Corona Accretion disc Supermassive black hole Shock wave Physics