Distributions of plasma parameters and observation of intermittency in edge plasma of SUNIST W H Wang, Y X He, and SUNIST Team Department of Engineering.

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Distributions of plasma parameters and observation of intermittency in edge plasma of SUNIST W H Wang, Y X He, and SUNIST Team Department of Engineering Physics, Tsinghua University, Beijing l00084, China

1.Description of experiments 2.Radial distributions of edge plasma parameters 3.Observation of intermittent transport events 4.Conclusions outlines

1. Description of experiments Discharge conditions: B T = 0.13 T; I p = 30 kA; loop voltage of 5 V; 2 ms flat-top phase of the ohmic discharge Diagnostic tools: Triple probe Langmuir probes Mach probe

Fig. 1 Relative positions of the windows where the Langmuir probe arrays are laid, and a closed-up view of the probe structures.

Fig. 2 Radial profiles of equilibrium T e, n e, and. The error bars are the statistical errors of the ensemble average of 10 ~ 15 shots. The shadow region stands for the radial location of the limiter.The dotted curve in fig 4(b) is fit curve of the plasma potential.

Fig. 3 Radial profiles of radial electric field E r and its radial gradient dE r /dr.

Fig. 4 Radial profiles of toroidal flow velocity Mach number M.

Fig. 5 Radial profiles of (a) the radial particle fluxes Γ r, (b) the heat fluxes Q r, Q conv and Q cond.

3. Observation of intermittent transport events

Fig. 6 (a) Conditional averaging results and (b) autocorrelation functions (the positive wings) of the fluxes from four radial positions.

Fig. 7 Profile of the Hurst exponents versus the electron density.

Calculation of the intermittency parameter C (1) Given a time series of the fluxes {Γ r (i), i = 1, 2, …, N}, the fluctuations of the Γ r (i) is defined as, (1) here and hereafter is time average, the variance of the Γ r (i) is written as VarΓ r. Introduce a measure. (2) Then we construct a set of new records by averaging the measure over overlapping subblocks with different time scales, T, from the original flux series Г r (t). The averaged measure is defined as. (3) Here m is the overlopping number of the two neighbor subblocks. For a self-similar time series, it’s q- moment of the measures over the scale T,, may have a power law as follow:. (4) If the series is pure self-similarity case (monofractal behavior), the K(q) scales asymptotically as a linear function of q; But for multifractal case, the K(q) has a nontrivial dependence on q. Knowing the K(q), we can define the intermittency parameter C(1):. (5) For our experiment data, we take the T = 1, 2, …, 200 μ s, then calculate with different q for signals from each radial position.

Fig. 8 (a) 1/q power of the moments of the flux measure in the fluctuation range of time scales for the data from the radial position r = 52 cm; (b) the profile of the intermittency coefficient of the fluxes as a function of the electron density.

Fig. 9 Comparison of the normalized PDF of the fluxes measured in four different radial positions.

Conclusions 1. Distributions of the plasma parameters Electron temperature, density, floating potential and plasma potential have radial gradients which supply the free energies for anomalous transports. There exits a sheared radial electric field near the limiter radial position. The toroidal plasma flow velocity has radial shear at the poloidal velocity layer, which may have correlation with the form of the radial electric field. 2.Observation of intermittent transport events Edge transport fluxes have intermittency character whose features vary with density. The Hurst exponents are greater than 0.5 in all measured radial positions, which means that the transport events have long-range correlation character. Distributions of H exponents, conditional averaging and PDFs of the particle fluxes show that the infrequent but large transport events are more important in high density than that in the low density.

The End Thanks All.