Adriano Stagni, N. Vianello, M. Agostini, C. Colandrea, S. Gorno, B. Labit, U. Sheikh, Luke Simons, Guang-Yu Sun, C. Tsui, M. Ugoletti, Yinghan Wang, C. Wüthrich, J. Boedo, Holger Reimerdes, C. Theiler
{"title":"The effect of plasma shaping on high density H-mode SOL profiles and fluctuations in TCV","authors":"Adriano Stagni, N. Vianello, M. Agostini, C. Colandrea, S. Gorno, B. Labit, U. Sheikh, Luke Simons, Guang-Yu Sun, C. Tsui, M. Ugoletti, Yinghan Wang, C. Wüthrich, J. Boedo, Holger Reimerdes, C. Theiler","doi":"10.1088/1741-4326/ad1a56","DOIUrl":null,"url":null,"abstract":"The impact of plasma shaping on the properties of high density H-mode scrape-off layer (SOL) profiles and transport at the outer midplane has been investigated on Tokamakà configuration variable. The experimental dataset has been acquired by evolving the upper triangularity while keeping the other parameters constant. The scan comprises δup values between 0.0 and 0.6, excluding negative triangularity scenarios. Within this study, a transition from type-I edge localised modes to the quasi-continuous exhaust regime takes place from low to high δup . The modification of the upstream SOL profiles has been assessed, in terms of separatrix quantities, within the αt turbulence control parameter theoretical framework (Eich et al 2020 Nucl. Fusion 60 056016). The target parallel heat load and the upstream near-SOL density profiles have been shown to broaden significantly for increasing αt . Correspondingly, in the far SOL a density shoulder formation is observed when moving from low to high δup . These behaviours have been correlated with an enhancement of the SOL fluctuation level, as registered by wall-mounted Langmuir probes as well as the thermal helium beam diagnostic. Specifically, both the background and the filamentary-induced fluctuating parts of the first wall ion saturation current signal are larger at higher δup , with filaments being ejected more frequently into the SOL. Comparison of two pulses at the extremes of the δup scan range, but with otherwise same input parameters, shows that the midplane neutral pressure does not change much during the H-mode phase of the discharge. This indicates that indirect effects of the change in geometry, linked to first wall recycling sources, should not play a significant role. The total core radiation increases at high δup , on account of a stronger plasma–wall interaction and resulting larger carbon impurity intake from the first wall. This is likely associated to the enhanced first wall fluctuations, as well as a smaller outer gap and the close-to-double-null magnetic topology at high shaping.","PeriodicalId":503481,"journal":{"name":"Nuclear Fusion","volume":"60 22","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-01-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Nuclear Fusion","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1088/1741-4326/ad1a56","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The impact of plasma shaping on the properties of high density H-mode scrape-off layer (SOL) profiles and transport at the outer midplane has been investigated on Tokamakà configuration variable. The experimental dataset has been acquired by evolving the upper triangularity while keeping the other parameters constant. The scan comprises δup values between 0.0 and 0.6, excluding negative triangularity scenarios. Within this study, a transition from type-I edge localised modes to the quasi-continuous exhaust regime takes place from low to high δup . The modification of the upstream SOL profiles has been assessed, in terms of separatrix quantities, within the αt turbulence control parameter theoretical framework (Eich et al 2020 Nucl. Fusion 60 056016). The target parallel heat load and the upstream near-SOL density profiles have been shown to broaden significantly for increasing αt . Correspondingly, in the far SOL a density shoulder formation is observed when moving from low to high δup . These behaviours have been correlated with an enhancement of the SOL fluctuation level, as registered by wall-mounted Langmuir probes as well as the thermal helium beam diagnostic. Specifically, both the background and the filamentary-induced fluctuating parts of the first wall ion saturation current signal are larger at higher δup , with filaments being ejected more frequently into the SOL. Comparison of two pulses at the extremes of the δup scan range, but with otherwise same input parameters, shows that the midplane neutral pressure does not change much during the H-mode phase of the discharge. This indicates that indirect effects of the change in geometry, linked to first wall recycling sources, should not play a significant role. The total core radiation increases at high δup , on account of a stronger plasma–wall interaction and resulting larger carbon impurity intake from the first wall. This is likely associated to the enhanced first wall fluctuations, as well as a smaller outer gap and the close-to-double-null magnetic topology at high shaping.
在托卡马克(Tokamakà)配置变量上研究了等离子体整形对高密度 H 模式刮除层(SOL)剖面特性和外中面传输的影响。实验数据集是在保持其他参数不变的情况下,通过改变上三角度获得的。扫描包括 0.0 至 0.6 之间的 δup 值,不包括负三角形情况。在这项研究中,从低δup 到高δup,发生了从 I 型边缘局部模式到准连续排气系统的过渡。在 αt 湍流控制参数理论框架内(Eich 等 2020 核聚变 60 056016),从分离矩阵量的角度评估了上游 SOL 曲线的变化。研究表明,随着 αt 的增大,目标平行热负荷和上游近 SOL 密度曲线会显著变宽。相应地,从低δup 到高δup 时,在远 SOL 中观察到密度肩的形成。这些行为与 SOL 波动水平的增强有关,壁装朗缪尔探针和热氦束诊断仪都记录了这一波动。具体来说,第一壁离子饱和电流信号的背景和丝状体引起的波动部分在更高δup 时都更大,丝状体更频繁地喷射到 SOL 中。在输入参数相同的情况下,对位于 δup 扫描范围两端的两个脉冲进行比较,结果表明在放电的 H 模式阶段,中性面压力变化不大。这表明,与第一壁循环源有关的几何形状变化的间接影响应该不会起很大作用。在高δup 时,由于等离子体与第一壁的相互作用更强,导致第一壁吸入的碳杂质更多,因此堆芯总辐射增加。这可能与第一壁波动的增强、较小的外隙以及高整形时接近双零的磁拓扑结构有关。
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