JET_34340_com.dat ITER Profile Database; datasets prepared by Pam Stubberfield, August 1996 JET shot 34340 is an ELMy H-mode shot obtained in the new JET pump divertor configuration. This pulse ( 2.0T, 2.0MA ) is a high beta plasma relevant for ITER scaling. Plasma is 95% deuterium and 5% hydrogen. The plasma is in a single-null X-point configuration with the ion gradB drift pointing towards the X-point. Some 10.5MW of 80KV/D and 7.2MW of 140KV/D neutral beam heating is turned on at 54 secs. At 57 secs all beams are switched off. The dataset files in this subdirectory were prepared from TRANSP run L209 taking into account the up-down asymmetry of the plasma, run by Bernard Balet on 26 July 1996 on the IBM JAC-2 RS6000 workstation based on JET shot 34340 taken on 9 March 1995. All these files have been prepared according to the Standard list of Variables and File Format manual by D.Boucher (7 December 1995). Tools to produce these files from a TRANSP run were provided by Stan Kaye of PPPL. These have only been modified slightly to run on the RS6000 UNIX workstation and to add 40 secs to all time axes. There are 23 1-D Ufiles and 31 2-D Ufiles. All beam related quantities (energy, particle sources, currents etc) have been smoothed to suppress Monte-Carlo noise. In the file JET_34340_0d.dat data is given at 56.37 secs. At that time, there is 17.7MW of beam heating and the plasma is in a steady ELMy H-mode phase. 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 - 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 1d files for IP,VSURF and IBOOT have negative values as normal for JET. Some comments on this particular TRANSP run L209; 25ms analysis time resolution; VMEC equilibrium LEVGEO = 6 Up-down asymmetric boundary definition obtained from the EFIT program No sawteeth events are taken into account in the simulation Ti profile before beam heating - equal to 1.5*Te during additional heating Te profile vs. radius is from combined LIDAR and ECE measurements. Ne profile from combined spectroscopy and LIDAR measurements Radiation profile is used in the analysis. 1D Rotation from single crystal is used Zeff profile from CX; impurity species assumed to be a mixture of C and Be (Zimp=4.6) Edge ptcl confinement time is set to 1s. Bootstrap current on NLBOOT = T ; impose q(0) = 1.1 to start Neoclassical beam driven current The TRANSP simulation in run I916 results in a predicted W_dia within 0.1MJ of the measured value.