Spontaneous Formation of Plasmoid during Early Magnetic Reconnection Phase of Two Merging Tokamaks

Cao, Qinghong; Cai, Yangchuan; Akimitsu, Moe; Xiang, Junguang; Ahmadi, Tara; Tanaka, H.; Tanabe, Hiroshi; Ono, Yasushi

doi:10.1002/tee.23208

Cited by 3 publications

(4 citation statements)

References 2 publications

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“…As reported in [26], the new experiment TS-6 enables flexible diagnostics access for full-2D imaging measurement both for in situ probes [41] and optical diagnostics [40]. Figure 3 shows the highlight of experimentally measured full-2D (r − z) ion temperature profile during plasma merging (B rec ∼ 0.02 T and B t ∼ 0.1 T at r ∼ 0.2 m): reconnection heating/transport model (left), measured 2D ion temperature profile T i in three major time frames at t = 65 μs, 75 μs and 85 μs (before, during and after merging) with poloidal flux contour lines (middle) and 1D vertical profile of radially averaged T i at r ∼ 0.12 ± 0.02 m at each z position (right).…”

Section: Full-2d Visualization Of Ion Temperature Profile During Magn...mentioning

confidence: 89%

“…Figure 1 illustrates typical plasma scenario in the TS-6 ST [26,40,41]. TS-6 has a cylindrical vacuum vessel (φ 0.75 m × 1.44 m), center stuck with φ0.11 m (slim-CS (30 turns × 2) and TF coil (12 rods)), two pairs of poloidal field (PF1 (four turns) and PF2 (three turns)) coils inside the chamber and a couple of equilibrium field coils (EF: 234 turns) at the top and bottom of the device as shown in figure 1(a).…”

Section: Merging Plasma Startup Scenario In the Ts-6 (Ts-3u) Stmentioning

confidence: 99%

“…Although MAST experiments provided the finest heating profile as a Frontier of reconnection heating physics using high resolution Thomson scattering and ion Doppler tomography [39], further detailed investigation with the information of magnetics was not available in MAST due to the absence of proper magnetic diagnostics to visualizes the double-axis configuration of merging flux tubes during reconnection. To explore the new Frontier in reconnection heating, we made further diagnostics upgrade in TS-6: 96CH/320CH ion Doppler tomography [26,40] and ∼200CH magnetic probes [41] with gyro-scale spatial resolution (Δr ∼ 10 mm and Δz ∼ 20 mm, and Δr = 20 ∼ 60 mm and Δz = 10 ∼ 25 mm, respectively) for clearer 2D imaging measurement. Here we report our new finding from the full-2D ultra high-resolution imaging measurement of ion heating/transport process during merging/reconnection startup.…”

Section: Introductionmentioning

confidence: 99%

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Global ion heating/transport during merging spherical tokamak formation

et al. 2021

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Here we report global ion heating/transport characteristics of magnetic reconnection during merging spherical tokamak formation experiment on TS-6 (TS-3U). Using the 96CH/320CH ultra high resolution ion Doppler tomography diagnostics, the full-2D imaging measurement clearly revealed that magnetic reconnection initially forms localized hot spots in the downstream region of outflow jet with inboard/outboard asymmetry (more deposition in the high field side) but the continuous accumulation of the heating coupled with transport process expands the high temperature region globally and forms characteristic poloidally ring-like structure aligned with field lines. The dynamic ion heating/transport process is also affected by the polarity of toroidal field and poloidally tilted/rotating global structure has experimentally been found both during and after merging. The characteristic poloidal asymmetry gets flipped when toroidal field direction is reversed and it was found that higher temperature appears in the positive potential side, which is opposite to the conventional understanding/prediction of guide field reconnection. Through the parallel acceleration process coupled with global heat transport, poloidally asymmetric non-classical feature has experimentally been found for the first time.

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Section: Full-2d Visualization Of Ion Temperature Profile During Magn...mentioning

confidence: 89%

Section: Merging Plasma Startup Scenario In the Ts-6 (Ts-3u) Stmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Global ion heating/transport during merging spherical tokamak formation

et al. 2021

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“…These pick-up coils have a cylindrical hollow structure with 300 turns and dimensions of 5 mm in length, 1.9 mm outer diameter, and 1 mm inner diameter. Additionally, there are pickup coils for measuring the toroidal component of the magnetic field (B t ), which have an elliptical structure with 200 turns, 5 mm length, 2 mm outer diameter, and 1 mm inner diameter [15,29].…”

Section: Numerical Setup For Ts-6(ts-3u) Spherical Tokamakmentioning

confidence: 99%

MHD-FiT: MHD-based dynamic reconstruction of tokamak plasma configuration

Ahmadi,

Ono,

Cai

et al. 2024

Nucl. Fusion

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This paper introduces an innovative method for reconstructing 2D magnetic flux contours and plasma parameters of dynamically moving tokamak plasmas. While conventional methods like EFIT, based on the Grad–Shafranov equation, are suitable for plasma equilibria with a single magnetic axis, our approach utilizes the MHD equations and shows promise for tokamak plasmas in motion or containing multiple magnetic axes, which may not strictly adhere to plasma equilibria. By utilizing limited edge magnetic probe measurements, our developed model successfully reconstructs the time evolution of two merging plasma toroids in the TS-6 experiment. A comparison with direct 2D magnetic probe measurements in a low β regime reveals a reconstruction error of approximately 3%.

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Ion heating/transport characteristics of the merging startup plasma scenario in the TS-6 spherical tokamak

Tanabe,

Cai,

Tanaka

et al. 2024

Nucl. Fusion

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Here we report ion heating/transport characteristics of merging startup scenario in the TS-6 spherical tokamak. In addition to the previously investigated impulsive heating process during magnetic reconnection, here we also focused on a longer time scale response of ion temperature profile both during and after merging including the semi-steady plasma confinement phase. During magnetic reconnection, (i) ion temperature profile forms poloidally asymmetric profile around the X-point at the initiation phase and (ii) radially asymmetric higher deposition is obtained in the high field side. After merging, (iii) the radially asymmetric double-peak structure is affected by parallel heat conduction and is aligned with field lines, but it does not simply become flux function in microsecond time scale: inboard/outboard asymmetry lasts even in the semi-steady confinement phase. (iv) Under the influence of low aspect ratio configuration, there is 2~3 times higher toroidal field in the high field side on a same closed flux surface, characteristic asymmetry of inboard/outboard ion temperature has experimentally been found for the first time.

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Spontaneous Formation of Plasmoid during Early Magnetic Reconnection Phase of Two Merging Tokamaks

Cited by 3 publications

References 2 publications

Global ion heating/transport during merging spherical tokamak formation

Global ion heating/transport during merging spherical tokamak formation

MHD-FiT: MHD-based dynamic reconstruction of tokamak plasma configuration

Ion heating/transport characteristics of the merging startup plasma scenario in the TS-6 spherical tokamak

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