"In presented numeric model of nitrogen plasma, the vibration distribution function (VDF) was studied in time. About 90 % of total energy in plasma dissipated into vibration levels and changed to the electron excitation, ionization, dissociation and another processes. Thus more processes such as v-t, v-v, etc. were necessary to know for the calculation of VDF in time. First step was the simulation of v-t process for the collision of N_2 molecule with N_2 (X, v) on the computer. Subsequently, probabilities of the v-t transfer were calculated from the SSH theory at particular discharge conditions. Finally, the VDF model in time was calculated from the obtained transfer probabilities and initial concentrations in active discharge, but only for the v-t process. Population vibration levels in VDF were changing to the Boltzman distribution." . "RIV/00216305:26310/07:PU69158" . . "P(GA202/05/0111)" . . "237-240" . "438061" . . "Numeric Modeling of Nitrogen Ground State Kinetics under Post-Discharge Conditions" . "2007-11-15+01:00"^^ . . "978-80-7355-078-3" . "RIV/00216305:26310/07:PU69158!RIV08-GA0-26310___" . . . . "Soural, Ivo" . "Numeric Modeling of Nitrogen Ground State Kinetics under Post-Discharge Conditions"@en . "26310" . . "2"^^ . . . "Prezentovan\u00FD numerick\u00FD model dus\u00EDkov\u00E9ho plazmatu studuje vibra\u010Dn\u00ED distribu\u010Dn\u00ED funkci (VDF) v \u010Dase. Okolo 90 % energie v plazmatu se rozd\u011Bluje do vibra\u010Dn\u00EDch hladin a m\u011Bn\u00ED se na excita\u010Dn\u00ED, ioniza\u010Dn\u00ED, disocia\u010Dn\u00ED energii elektron\u016F a n\u011Bkter\u00E9 dal\u0161\u00ED procesy. Proto je p\u0159i po\u010D\u00EDt\u00E1n\u00ED VDF v \u010Dase pot\u0159eba zn\u00E1t v\u00EDce proces\u016F jako v-t \u010Di v-v procesy apod. prvn\u00EDm krokem byla po\u010D\u00EDta\u010Dov\u00E1 simulace v-t procesu pro kolizi molekul dus\u00EDku N_2 s N_2 (X, v). N\u00E1sledn\u011B byly spo\u010D\u00EDt\u00E1ny pravd\u011Bpodobnosti v-t p\u0159echodu podle SSH teorie p\u0159i konkr\u00E9tn\u00EDch podm\u00EDnk\u00E1ch v\u00FDboje. Na z\u00E1v\u011Br se v\u00FDsledn\u00FD VDF model spo\u010D\u00EDtal ze z\u00EDskan\u00FDch pravd\u011Bpodobnost\u00ED p\u0159echodu a po\u010D\u00E1te\u010Dn\u00EDch koncentrac\u00ED v aktivn\u00EDm v\u00FDboji, pouze v\u0161ak pro v-t proces. Populace na vibra\u010Dn\u00EDch hladin\u00E1ch ve VDF se zm\u011Bnila na Boltzmanovo rozd\u011Blen\u00ED."@cs . "2"^^ . "Numeric Modeling of Nitrogen Ground State Kinetics under Post-Discharge Conditions"@en . . "Numeric Modeling of Nitrogen Ground State Kinetics under Post-Discharge Conditions" . "Numerick\u00E1 simulace kinetiky z\u00E1kladn\u00EDho stavu dus\u00EDku za podm\u00EDnek dohas\u00EDnaj\u00EDc\u00EDho plazmatu"@cs . . . "Proceedings of New Trends in Physics" . . "[BCE076EFC0A5]" . "vibrational distribution, nitrogen post-discharge kinetics, V-T energy transfer"@en . "Brno" . "Brno" . . "In presented numeric model of nitrogen plasma, the vibration distribution function (VDF) was studied in time. About 90 % of total energy in plasma dissipated into vibration levels and changed to the electron excitation, ionization, dissociation and another processes. Thus more processes such as v-t, v-v, etc. were necessary to know for the calculation of VDF in time. First step was the simulation of v-t process for the collision of N_2 molecule with N_2 (X, v) on the computer. Subsequently, probabilities of the v-t transfer were calculated from the SSH theory at particular discharge conditions. Finally, the VDF model in time was calculated from the obtained transfer probabilities and initial concentrations in active discharge, but only for the v-t process. Population vibration levels in VDF were changing to the Boltzman distribution."@en . "Numerick\u00E1 simulace kinetiky z\u00E1kladn\u00EDho stavu dus\u00EDku za podm\u00EDnek dohas\u00EDnaj\u00EDc\u00EDho plazmatu"@cs . . "Vysok\u00E9 u\u010Den\u00ED technick\u00E9 v Brn\u011B. Nakladatelstv\u00ED VUTIUM" . "4"^^ . "Kr\u010Dma, Franti\u0161ek" . .