Experimental Observation Of Coexisting Electromagnetic Fluctuations Correlating With The Inter-Elm Pedestal Evolution On East

Correlations between the edge fluctuations and the pedestal evolution during the relatively large edge localized mode (ELM) cycles at high pedestal normalized electron collisionality (nue , ped * > 1) on the EAST tokamak are investigated. Not only the edge electrostatic coherent mode (ECM, similar to 50kHz) and the low frequency magnetic coherent mode (MCM, similar to 32kHz) but also a high frequency electromagnetic mode (HFM, >150kHz) are observed to be coexisting between ELMs. After the ELM crash, the pedestal electron temperature recovered faster than the pedestal electron density. It is found that the saturation of the ECM coincides more with the saturation of the pedestal electron density, while the saturation of the HFM and MCM coincides more with the saturation of the pedestal electron temperature. In addition, the characteristics of the electromagnetic fluctuations (the HFM and MCM) are studied in detail: the HFM propagates in the electron diamagnetic drift direction in the laboratory frame with an average poloidal wave number ofk thetaHFM approximate to 0.17cm- 1, while the MCM propagates in the ion diamagnetic drift direction in the laboratory frame withk thetaMCMapproximate to0.12cm- 1 and the toroidal mode number of n=1. Furthermore, both the HFM and MCM have inward average radial wave numbers ofk RHFM approximate to 0.13cm- 1 andk RMCM approximate to 4.64 cm- 1. The bispectral analysis shows that the HFM and MCM have strong nonlinear interactions. The HFM is clearly observed on both low and high field side Mirnov coils, which might suggest a feature beyond a ballooning type instability, e.g., the kinetic ballooning mode. These studies may contribute to a better understanding of the pedestal evolution.