"10"^^ . . "Geraud, A." . . "Loarer, T." . "337-339" . . . . "Gunn, J. P." . . "NL - Nizozemsko" . . "Bucalossi, J." . "16" . . . . "RIV/61389021:_____/05:00374775" . . "Journal of Nuclear Materials" . "P(GP202/03/P062), Z(AV0Z20430508)" . "4"^^ . "The response of the Tore Supra edge plasma to supersonic pulsed gas injection"@en . "RIV/61389021:_____/05:00374775!RIV12-AV0-61389021" . "The response of the Tore Supra edge plasma to supersonic pulsed gas injection" . "10.1016/j.jnucmat.2004.10.005" . "The response of the scrape-off layer (SOL) to supersonic pulsed gas injection (SPGI) in Tore Supra is measured by a reciprocating Mach probe. The edge density increases abruptly following injection and decays to its pre-injection valuein about 10 ms. The edge temperature falls to 5\u201310 eV range. The perturbation appears to be toroidally symmetric. The density increase depends on the injected amount of deuterium gas, but the temperature decrease does not. The parallel Mach number changes during the density spike; the sign of the change depends on the poloidal location of the injection nozzle. We use a simple one-dimensional fluid model for the SOL to interpret the measurements. The Mach number change lasts about 10ms as well, indicating the existence of a poloidally localized ionization source in the vicinity of the nozzle." . . "P\u00E1nek, Radom\u00EDr" . . "Hron, Martin" . . "The response of the Tore Supra edge plasma to supersonic pulsed gas injection"@en . "0022-3115" . "St\u00F6ckel, Jan" . . . "540952" . "\u010Euran, Ivan" . . "000227789500105" . "5"^^ . . "[31BEA250CE1F]" . . . . . "The response of the Tore Supra edge plasma to supersonic pulsed gas injection" . "The response of the scrape-off layer (SOL) to supersonic pulsed gas injection (SPGI) in Tore Supra is measured by a reciprocating Mach probe. The edge density increases abruptly following injection and decays to its pre-injection valuein about 10 ms. The edge temperature falls to 5\u201310 eV range. The perturbation appears to be toroidally symmetric. The density increase depends on the injected amount of deuterium gas, but the temperature decrease does not. The parallel Mach number changes during the density spike; the sign of the change depends on the poloidal location of the injection nozzle. We use a simple one-dimensional fluid model for the SOL to interpret the measurements. The Mach number change lasts about 10ms as well, indicating the existence of a poloidally localized ionization source in the vicinity of the nozzle."@en . "Tsitrone, E." . "Edge plasma; Gas injection and fuelling; probes; Plasma flow; Tore Supra"@en . "P\u00E9gouri\u00E9, B." .