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RF discharge between two electrodes with Helium
- Ionization of background gas
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Secondary electron emission at x-direction boundaries
- only happens rarely for this setup (but code coverage of SEE modules is still performed)
- Emission model: SEE-I (bombarding electrons are removed, Argon ions on different materials is considered for secondary e- emission with 0.13 probability) by Depla2009
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The results (total number of particles) are shown in n_parts_total.jpg for MPI=1,...,10
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Count the number of electrons that impact on the left boundary and output to SurfaceAnalyze.csv (compare the last line with a reference)
CalcBoundaryParticleOutput = T
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using rounded values for all particle masses
- otherwise fails when using CORE_SPLIT and MPI=5 due to "Message: CODE_ANALYZE: DSMC_Chemistry is not energy conserving for chemical reaction: 1"
- not that rel. Energy difference : -1.18806002360921E-012
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Output of temporal derivative of the electric field
CalcElectricTimeDerivative =T
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Output of min/amax/average electron energy (eV) in each cell
CalcElectronEnergy = T