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Afterglow dynamics of plasma potential in bipolar HiPIMS discharges
In bipolar magnetron sputtering, the plasma afterglow is initiated by switching the target bias from a negative to positive voltage. In the following, the plasma potential evolution in this configuration is characterized, being responsible for the ion acceleration at the substrate sheath potential f...
Autores principales: | , , , |
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Lenguaje: | eng |
Publicado: |
2021
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Materias: | |
Acceso en línea: | https://dx.doi.org/10.1088/1361-6595/ac2aed http://cds.cern.ch/record/2792377 |
Sumario: | In bipolar magnetron sputtering, the plasma afterglow is initiated by switching the target bias
from a negative to positive voltage. In the following, the plasma potential evolution in this
configuration is characterized, being responsible for the ion acceleration at the substrate sheath
potential fall, in particular in high power impulse magnetron sputtering (HiPIMS). A
mass-energy analyzer and a Langmuir probe respectively measure the ion energies and the
plasma/floating potential at different positions within HiPIMS discharges. A plasma potential
drop and rise in the first 45 μs of the afterglow is observed, settling in the plasma bulk towards
values below the applied positive bias. The measured ion energies agree with the plasma
potential values before and after the drop-rise. To gain more comprehensive insights into the
mechanisms responsible for such a potential evolution, particle-in-cell Monte Carlo 3D
simulations of bipolar direct current magnetron sputtering discharges are explored in
equivalent geometries. Despite their average power being orders of magnitude lower compared
to the HiPIMS configuration, a similar afterglow behavior is observed. This indicates that the
measured dynamics are not specific to HiPIMS, but rather a feature of bipolar magnetron
sputtering. The responsible mechanisms are studied further: the effects of various system
parameters are decoupled, with the magnetic field configuration emerging as crucial for the
plasma potential drop-rise dynamics and the associated re-ionization close to the target. |
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