L-mode and inter-ELM divertor particle and heat flux width scaling on MAST

The distribution of particles and power to plasma-facing components is of key importance in the design of next-generation fusion devices. Power and particle decay lengths have been measured in a number of MAST L-mode and H-mode discharges in order to determine their parametric dependencies, by fitting power and particle flux profiles measured by divertor Langmuir probes, to a convolution of an exponential decay and a Gaussian function. In all discharges analysed, it is found that exponential decay lengths mapped to the midplane are mostly dependent on separatrix electron density ne,sep0.65±0.15 L-mode, ne,sep0.76±0.19 H-mode) and plasma current Ip-0.36±0.11 L-mode, Ip-1.05±0.18 H-mode) (or parallel connection length). The widths of the convolved Gaussian functions have been used to derive an approximate diffusion coefficient, which is found to vary from 1 m2/s to 7 m2/s, and is systematically lower in H-mode compared with L-mode.