2020
DOI: 10.1088/1361-6587/ab7c4f
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Simulations of Argon plasmas in the linear plasma device GyM with the SOLPS-ITER code

Abstract: Edge plasma codes, such as SOLPS, are widely used to study plasma transport in tokamaks scrape-off layers (SOL). The possibility to apply these codes to non hydrogenic plasmas and to linear plasma devices (LPDs) is gaining the interests of the fusion community. These facilities play a pivotal role in plasma-material interaction (PMI) studies for future fusion devices and may allow to test the code capabilities both in terms of geometry and simulated plasma species. In this contribution, we apply the SOLPS-ITER… Show more

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Cited by 19 publications
(29 citation statements)
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“…Anomalous particle and heat transport is treated in the diffusion approximation, with anomalous diffusion coefficients D ⊥ = 0.5 m 2 /s and χ ⊥ = 1.5 m 2 /s, respectively. These values of anomalous transport coefficients are consistent with the ones chosen in previous simulations of GyM with SOLPS-ITER [26]. Neutral particles are fed in through a puffing surface, located at the west target and removed through a pumping surface, with albedo p a = 0.018.…”
Section: D Simulations Of Helium Plasma With Solps-itersupporting
confidence: 87%
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“…Anomalous particle and heat transport is treated in the diffusion approximation, with anomalous diffusion coefficients D ⊥ = 0.5 m 2 /s and χ ⊥ = 1.5 m 2 /s, respectively. These values of anomalous transport coefficients are consistent with the ones chosen in previous simulations of GyM with SOLPS-ITER [26]. Neutral particles are fed in through a puffing surface, located at the west target and removed through a pumping surface, with albedo p a = 0.018.…”
Section: D Simulations Of Helium Plasma With Solps-itersupporting
confidence: 87%
“…Another relevant aspect about the importance of excitation processes in LPDs needs to be pointed out. According to our previous work [26], SOLPS-ITER simulations of pure Ar plasma predict that a relevant fraction of input power is dissipated through electron excitation processes. Also in this case SOLPS does not include electron-neutral excitation, so that we must assume that the ion excitation is important in this case.…”
Section: Comparison and Interpretation Of Solps-iter Results Through ...mentioning
confidence: 89%
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“…We simulated the surface evolution due to plasma irradiation for an overall fluence of 1.74× 10 24 ions m −2 . The impinging ion energy is set to 150 eV, well above the sputtering threshold of Ar on W. Having the intention of making comparisons with experimental results, we choose these parameters since they are typical of Ar plasmas produced in the GyM linear device, on condition that a proper bias voltage is applied to the sample to achieve the above energy value [23]. In figure 7, we show the topography obtained at the end of the ERO2.0 simulations for different values of the ion fluence, while the corresponding average surface roughnesses are reported in table 4.…”
Section: Ero20 and Skeren Modelling Of Realistic W Surfaces Exposed T...mentioning
confidence: 99%