Observation of Radially Inward Turbulent Particle Flux in ETG dominated Plasma of LVPD

Abstract: Radially inward turbulent particle flux is observed in the core region of target plasma of Large Volume Plasma Device(LVPD). The region satisfy conditions for ETG turbulence, i.e. threshold condition, $ \eta_e = L_{n_e} / L_{T_e} > 2/3 $ , where density scale length, $ L_{n_e} \sim 300 cm $ and temerature scale length, $ L_{T_e} \sim 50cm $[S.K. Mattoo et al., Phys. Rev. Lett., 108, 255007(2012)\cite{Mattoo_PRL}]. The measured flux is dominantly electrostatic ($\Gamma_{es} \approx 10^{5} \Gamma_{em}$) although the nature of the measured turbulence is electromagnetic($\beta \approx 0.6 $). The turbulence has been established as a consequence of electron temperature gradient (ETG) driven modes. Experimental observations of phase angle between density ($ n_e $) and potential ($\phi $) fluctuations, $ \theta_{\tilde{n}e, \tilde{\phi}} $ and electrostatic particle flux, $ \Gamma{es} $ shows good agreement with the corresponding theoretical estimates for ETG turbulence.