Modeling The Transport Of Intense Relativistic Electron Beams Through Nitrogen Gas
2017 IEEE INTERNATIONAL CONFERENCE ON PLASMA SCIENCE (ICOPS)(2017)
Abstract
Intense, relativistic electron beam transport through a gaseous medium has important applications in the fields of material response, gas discharges, electron beam propagation, and radiography. Recent efforts at NRL have extended our nitrogen gas chemistry model that is valid for current densities exceeding 1 kA/cm 2 at gas pressures on the order of 1 Torr [1]. The model tracks 42 species of atomic, molecular, and ionized nitrogen as a function of time. This extended nitrogen chemistry model has been implemented in the hybrid particle-in-cell / fluid code LSP and initial twodimensional simulations show better agreement with beam transport experiments than previous nitrogen chemistry models.
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Key words
extended nitrogen chemistry model,particle-in-cell/fluid code LSP,gas discharges,nitrogen gas chemistry model,current densities,gas pressures,intense relativistic electron beam transport,intense relativistic electron beam propagation,Gamble II ring diode experiments,plasma simulations,elecrtron density,calorimetric measurements,spectroscopic measurements,pressure 1.0 torr,voltage 1 MV,current 800 kA,N2
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