Scrape-off layer properties of ITER-like limiter start-up plasmas in JET

Arnoux, G.; Farley, Tom; Silva, Carlos; Devaux, S.; Firdaouss, M.; Frigione, D.; Goldston, Robert James; Gunn, J.; Horáček, J.; Jachmich, S.; Lomas, P. J.; Marsen, S.; Matthews, G. F.; Pitts, R.A.; Stamp, M.; Stangeby, P.C.; Contributors, Jet‐Efda

doi:10.1088/0029-5515/53/7/073016

Cited by 55 publications

(65 citation statements)

References 20 publications

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“…In all previous dedicated experiments [3,4,6,7], the near SOL of inboard-limited plasmas had always been observed at the HFS. Still, no consensus could be reached on the presence of the near SOL on the LFS, being evident in C-Mod [7], not in DIII-D [6] and COMPASS [5], while no outboard measurements were available in TCV in Ref.…”

Section: Comparison With the Lfs Measurementsmentioning

confidence: 94%

“…However, recent infrared (IR) thermography and Langmuir probes (LPs) measurements of inboardlimited L-mode plasmas in many tokamaks [3,4,5,6,7] have shown the ubiquitous presence of two regions in the SOL: a "near" SOL, extending typically a few mm from the LCFS, characterized by a steep gradient of the parallel heat flux, and a "far" SOL, typically a few cm wide, featuring flatter heat flux profiles. The parallel heat flux radial profile in the SOL is therefore better described by a sum of two exponentials q || (r u ) = q n exp(−r u /λ n ) + q f exp(−r u /λ f ) ,…”

Section: Page 1 Of 26 Author Submitted Manuscript -Nf-101877r2mentioning

confidence: 99%

“…(1). This can lead to severe damages to the limiter, as observed in JET [3]. The design of ITER First Wall (FW) panels has been changed to handle the heat flux associated with the near SOL [10].…”

Section: Page 1 Of 26 Author Submitted Manuscript -Nf-101877r2mentioning

confidence: 99%

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Understanding and suppressing the near scrape-off layer heat flux feature in inboard-limited plasmas in TCV

et al. 2017

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In inboard-limited plasmas, the Scrape-Off Layer (SOL) shows two regions: the near SOL, extending a few mm from the Last Closed Flux Surface (LCFS), characterized by a steep gradient of the parallel heat flux radial profile, and a far SOL, typically some cm wide, with flatter heat flux profiles. The physics of the near SOL is investigated in TCV with two series of experiments featuring deuterium and helium plasmas, in which the plasma current, density and elongation have been varied. The parallel heat flux profiles are measured on the limiter by means of infrared thermography. For the first time, the near SOL is reported to disappear for low plasma current or at high density, for values of the SOL collisionality ν * SOL corresponding to a conduction-limited regime. The power in the near SOL ∆P SOL is shown to decrease with the normalized Spitzer resistivity ν as ∆P SOL ∝ ν −1 . The floating potential profiles, measured at the limiter using flush-mounted Langmuir probes (LP), show the presence of non-ambipolar currents, and their relation to the presence of a velocity shear layer is discussed. The shearing rate is shown to strictly correlate with the power in the near SOL ∆P SOL , consistently with a recent theoretical model. Measurements of the near SOL on the Low Field Side (LFS) are performed using a reciprocating Langmuir probe (RP). The near SOL is reported to vanish simultaneously at the LFS and at the limiter. The near and far SOL widths are compared with the predictions from existing theoretical models, to which empirical corrections with resistivity and elongation are proposed.

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Section: Comparison With the Lfs Measurementsmentioning

confidence: 94%

Section: Page 1 Of 26 Author Submitted Manuscript -Nf-101877r2mentioning

confidence: 99%

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Understanding and suppressing the near scrape-off layer heat flux feature in inboard-limited plasmas in TCV

et al. 2017

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“…[2][3][4][5] These theoretical investigations 6 focused mainly on the toroidally limited SOL, 7-9 a configuration that is relevant to the ITER start-up and ramp-down phases during which the inner or the outer vessel wall will be used as the limiting surface. 10,11 In this scenario, using low-frequency fluid models, the turbulent regimes were identified. It was found that drift waves (DW) and ballooning modes (BM) drive the plasma turbulent dynamics, with the resistive BM being the main drive in typical existing tokamak conditions, 12 a result in agreement with previous experimental results.…”

Section: Introductionmentioning

confidence: 99%

Plasma turbulence in the scrape-off layer of the ISTTOK tokamak

et al. 2016

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The properties of plasma turbulence in a poloidally limited scrape-off layer (SOL) are addressed, with focus on ISTTOK, a large aspect ratio tokamak with a circular cross section. Theoretical investigations based on the drift-reduced Braginskii equations are carried out through linear calculations and non-linear simulations, in two- and three-dimensional geometries. The linear instabilities driving turbulence and the mechanisms that set the amplitude of turbulence as well as the SOL width are identified. A clear asymmetry is shown to exist between the low-field and the high-field sides of the machine. While the comparison between experimental measurements and simulation results shows good agreement in the far SOL, large intermittent events in the near SOL, detected in the experiments, are not captured by the simulations.

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“…Since this part of the tokamak vessel is not designed to handle large particle and heat fluxes as are the divertor plates, the start-up scenario must be carefully tailored to minimize its power load. In the last few years, dedicated experiments have been conducted in a number of tokamaks in order to characterize the fluctuations and equilibrium profiles in the scrape-off layer (SOL) of limited plasmas [2][3][4][5][6][7][8]. Substantially large asymmetries have been observed between the different explored configurations, e.g.…”

Section: Introductionmentioning

confidence: 99%

Effect of the limiter position on the scrape-off layer width, radial electric field and intrinsic flows

et al. 2014

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The effect of the limiter position on the scrape-off layer (SOL) width, radial electric field and intrinsic flows is investigated via global, three-dimensional turbulence simulations in four different limiter configurations. The limiter position affects the SOL dynamics in a number of ways, for example by changing the effective connection length or by modifying the unstable modes present in the system. The simulations show that the SOL width is much smaller and less poloidally asymmetric when the plasma is limited on the low-field side than on the high-field side, which can be explained by a change in the turbulence regime between the two configurations. The radial electric field is determined by the combined effect of the sheath physics and the electron adiabaticity condition, and its poloidal structure depends on the limiter position, as it can be fairly well explained through an analytical model. Intrinsic parallel flows established in the SOL, typically leading to co-current toroidal rotation with a magnitude that strongly depends on the limiter position, can also be fairly well reproduced analytically for each limiter configuration.

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Scrape-off layer properties of ITER-like limiter start-up plasmas in JET

Cited by 55 publications

References 20 publications

Understanding and suppressing the near scrape-off layer heat flux feature in inboard-limited plasmas in TCV

Understanding and suppressing the near scrape-off layer heat flux feature in inboard-limited plasmas in TCV

Plasma turbulence in the scrape-off layer of the ISTTOK tokamak

Effect of the limiter position on the scrape-off layer width, radial electric field and intrinsic flows

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