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CHAPTER TWO THEORETICAL FORMULATION AND ASSUMPTIONS
CHAPTER THREE THE NUMERICAL METHODS OF SOLUTIONS
CHAPTER FOUR THE ELECTRONIC AND MOLECULAR REACTIONS IN
7 other sections not shown
200 nsec discharge absorption attachment process involving attachment rate coefficient Boltzmann equation Calculated time histories caption of Fig chemical species comparison diluent gas discharge current discharge plasma discharge pumped dissociative attachment drift velocity elastic collision electric field strength electron attachment process electron avalanche electron energy distribution electron mean energy electron mole fraction electron number density emission energy distribution function excimer laser experimental formation free electrons hand branch harpooning reaction impact ionization kinetic processes kinetics model laser cavity laser chamber laser output power laser photon laser upper Lett measured waveforms Metastable molecules Ne:Xe:HCl number density ratio obtained Ohm's law operating conditions optical cavity output coupling Peak cross Penning ionization PFN charging voltage photon number density Phys preionization rare gas reaction rate coefficients shown in Fig strength to total theoretical tion total gas pressure total molecular number transmission line driven waveforms XeCl laser Xenon