Estimation of neutral fluxes on the first mirror of H-alpha diagnostics in ITER.

• Conservative estimation of DT and Be neutral fluxes on the first mirrors of H-alpha and Visible spectroscopy in stationary modes of ITER was done. • Zemax software was used for calculation of attenuation factors in real geometry of equatorial port-plugs. • Optical area of the first mirror will remain clean being occupied by erosion-dominated zone. • Contamination of the first mirror edges will not affect the diagnostics performance. • In-situ mirror cleaning system will be used in case of eventual contamination of the optical area. The first mirrors of all optical diagnostics in ITER will be exposed to the fluxes of neutrals, mainly D, T and Be. This can lead to formation of erosion and deposition zones on the mirror surface. In this work, the fluxes of neutral D, T and Be on the first mirror of H-alpha diagnostics in the equatorial ports were analyzed with Zemax OpticStudio software. Only stationary modes of ITER were considered. The geometry of viewing cutouts in diagnostic shielding modules (DSM) and the model of the first mirror units (FMU) were taken from the ENOVIA database. It is shown that the net erosion is dominating in major part of the first mirror zone with erosion rate ≈100 nm/year. The net deposition zone is located on the edges of the mirror, where deposition rate reaches up to 900 nm/year. Being made of single crystal molybdenum, the mirrors will keep their optical properties under erosion over the whole ITER lifetime. The contaminated edges are not important for the light collection and imaging of the SOL emission in the areas of interest at the ITER first wall within the selected field-of-view. The DC plasma discharge mirror cleaning system will be used to recover FM performance in case of eventual contamination. [ABSTRACT FROM AUTHOR]