Tokamak: JET Pulse number: 53532 Contact persons: Pam Stubberfield, Vassili Parail Institution: EFDA-JET Date of shot: 090201 Analysis codes: TRANSP, EFIT for plasma boundary and initial q profile Run number: 53532C05 Date of analysis: 010517 TRANSP run by Yuri Baranov Assumptions made for analysis: Ti and Zeff profiles from CX measurements are used. Te profile vs. radius is from KK3 measurements. Ne profile from LIDAR measurements.1D bulk radiation is used in the analysis. Rotation velocity profile from CX measurements is provided. C impurity. Edge ptcl confinement time is set to 0.3s. q profile provided by EFIT used from start of run at 43.40 secs until 43.5 secs. TRANSP field diffusion then provides the q profile. Shot description,purpose of the experiment: Optimised shear discharge Publication: Baranov Y.F et al, "Local Conditions for Ion ITB Formation in JET" submitted to Plasma Physics and Controlled Fusion, special issue Challis C et al, "Influence of the q-profile Shapes on Plasma Performance in JET", ibid Litaudon X et al, "Towards fully Non-inductive Current Drive Operation in JET", ibid Additional information: Pulse #53532 is one of the best Optimised Shear JET discharges. Its characteristic feature is that plasma breakdown was assisted by LHCD with the power Plh=2.3MW applied from t=41.5sec until t=44.1 sec. The plasma current was ramping up throughout the pulse so that it has reached Ip=2.2MA at t=45.2 sec at a toroidal magnetic field Bt=2.6T. The main heating power was applied at t=43.7 sec and reached its full capacity (12.0MW of NBI) at t=45 sec. Plasma energy was rising throughout the main heating phase, reaching the level of 4.5MJ and confinement time enhancement factor H89 exceeded 2.0 shortly before a sudden deterioration of plasma confinement caused by transition to type-I elms. The plasma developed a strong ITB during the main heating, which gradually expanded its footpoint to R=3.55m. There are 23 1-D Ufiles and 35 2-D Ufiles. All beam related quantities (energy, particle sources, currents etc) have been smoothed to suppress Monte-Carlo noise. In the 2d file the deuterium density is stored in NM1. In the file JET_53532_0d.dat data is given at 45.20 secs at the end of the current ramp-up. Values for kappa and delta in the 0d, 1d and 2d files are from the TRANSP output derived from the boundary input definition provided by EFIT. kappa = (Zmax-Zmin)/(Rmax-Rmin), delta = (RGEO - min(R(zmin),R(Zmax)))/a XPLIM is from XLOC ; SEPLIM is given by EFIT. PLTH is defined by WTH/TAUTH coming directly from TRANSP output and not as defined in the standard list of variables. The TRANSP run gives a simulated W_dia and neutron yield within 5% of the measured values.