Similarity law and frequency scaling in low-pressure capacitive radio frequency plasmas

Yangyang Fu; Bocong Zheng; De Qi Wen; Peng Zhang; Qi Hua Fan; John P. Verboncoeur

doi:10.1063/5.0029518

Similarity law and frequency scaling in low-pressure capacitive radio frequency plasmas

Yangyang Fu^*, Bocong Zheng^*, De Qi Wen, Peng Zhang, Qi Hua Fan, John P. Verboncoeur

^*Corresponding author for this work

Michigan State University

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

We verify the similarity law (SL) and show a violation of frequency scaling (f-scaling) in low-pressure capacitive radio frequency (rf) plasmas via fully kinetic particle-in-cell simulations. The SL scaling relations for electron density and electron power absorption are first confirmed in similar rf discharges. Based on these results, with only the driving frequency varied, the f-scalingfor electron density is also validated, showing almost the same trend as the SL scaling, across most of the frequency regime. However, violations of the f-scaling are observed at lower frequencies, which are found to be relevant to the electron heating mode transition from stochastic to Ohmic heating. Electron kinetic invariance is illustrated for the SL and f-scaling being valid, respectively, whereas the electron kinetic variation is observed when the f-scaling is violated.

Original language	English
Journal	Applied Physics Letters
Volume	117
Issue number	20
DOIs	https://doi.org/10.1063/5.0029518
Publication status	Published - 16 Nov 2020
Externally published	Yes

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title = "Similarity law and frequency scaling in low-pressure capacitive radio frequency plasmas",

abstract = "We verify the similarity law (SL) and show a violation of frequency scaling (f-scaling) in low-pressure capacitive radio frequency (rf) plasmas via fully kinetic particle-in-cell simulations. The SL scaling relations for electron density and electron power absorption are first confirmed in similar rf discharges. Based on these results, with only the driving frequency varied, the f-scalingfor electron density is also validated, showing almost the same trend as the SL scaling, across most of the frequency regime. However, violations of the f-scaling are observed at lower frequencies, which are found to be relevant to the electron heating mode transition from stochastic to Ohmic heating. Electron kinetic invariance is illustrated for the SL and f-scaling being valid, respectively, whereas the electron kinetic variation is observed when the f-scaling is violated.",

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T1 - Similarity law and frequency scaling in low-pressure capacitive radio frequency plasmas

AU - Fu, Yangyang

AU - Zheng, Bocong

AU - Wen, De Qi

AU - Zhang, Peng

AU - Fan, Qi Hua

AU - Verboncoeur, John P.

PY - 2020/11/16

Y1 - 2020/11/16

N2 - We verify the similarity law (SL) and show a violation of frequency scaling (f-scaling) in low-pressure capacitive radio frequency (rf) plasmas via fully kinetic particle-in-cell simulations. The SL scaling relations for electron density and electron power absorption are first confirmed in similar rf discharges. Based on these results, with only the driving frequency varied, the f-scalingfor electron density is also validated, showing almost the same trend as the SL scaling, across most of the frequency regime. However, violations of the f-scaling are observed at lower frequencies, which are found to be relevant to the electron heating mode transition from stochastic to Ohmic heating. Electron kinetic invariance is illustrated for the SL and f-scaling being valid, respectively, whereas the electron kinetic variation is observed when the f-scaling is violated.

AB - We verify the similarity law (SL) and show a violation of frequency scaling (f-scaling) in low-pressure capacitive radio frequency (rf) plasmas via fully kinetic particle-in-cell simulations. The SL scaling relations for electron density and electron power absorption are first confirmed in similar rf discharges. Based on these results, with only the driving frequency varied, the f-scalingfor electron density is also validated, showing almost the same trend as the SL scaling, across most of the frequency regime. However, violations of the f-scaling are observed at lower frequencies, which are found to be relevant to the electron heating mode transition from stochastic to Ohmic heating. Electron kinetic invariance is illustrated for the SL and f-scaling being valid, respectively, whereas the electron kinetic variation is observed when the f-scaling is violated.

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Similarity law and frequency scaling in low-pressure capacitive radio frequency plasmas

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