tokamak name shot number2 contact person at the experiment institution date of shot=+anlysis code(s)codes used for data analysis"date of analysis7%main assumptions made in the analysis/summary of useful information publication,any additional informationH6full comments file (recovers corrupted comments files)&#last update YYYYMMDD$&shot date YYYYMMDD(/auxiliary heating type2 plasma phase45"plasma state ('STEADY' or 'TRANS'))8mass number of main gas+;charge number of main gas)>mass number of beam gas+Acharge number of beam gas3D!mass number of 2nd beam gas (JET)5G#charge number of 2nd beam gas (JET).Jmass number of main impurity0Mcharge number of main impurity!Ppellet material Sgeometric axisV magnetic axisY minor radiusH\6minimum separation between separatrix and limiter/wallD_2minimum separation between Xpoint and limiter/wall#bplasma elongatione triangularityh indentation/kpoloidal cross sectional arean plasma volume0qlimiter/divertor configurationAt/ion gradB drift towards/away (1/-1) from Xpointw wall material#zdivertor material"}limiter material7%evaporated wall conditioning materialB0vacuum toroidal magnetic field at geometric axis plasma current loop voltage4"safety factor at 95% poloidal flux poloidal beta toroidal beta5#poloidal beta from diamagnetic loop8&central line averaged electron densityK9time derivative of central line averaged electron density0line averaged effective charge radiated power Ohmic power%neutral beam energy5#power injected by main neutral beamZHmain beam power fractions F1*10000+F2*100+F3 (F1 F2 F3 all to nearest %):(power injected by auxiliary neutral beam_Mauxiliary beam power fractions F1*10000+F2*100+F3 (F1 F2 F3 all to nearest %)4"fraction of beam power co-injected?-total injected beam power minus shine through ECH frequency#mode of ECH waves%ECH launch location.ECH power coupling to plasma ICRH frequency%ICRH heating scheme&ICRH antenna phasing/ICRH power coupling to plasma LH frequency)LH parallel mode number-LH power coupling to plasma IBW frequency.IBW power coupling to plasmaH6fraction of fast ion energy in perpendicular directionC1perpendicular fast ion energy content during ICRH.effective atomic mass number+parameter scan identifier/thermal plasma energy content-total plasma energy content@.time derivative of total plasma energy content(uncorrected loss powerD2loss power with correction for cx and orbit losses/total energy confinement time1thermal energy confinement time plasma current9 'vacuum toroidal field at geometric axis minor radius geometric axis triangularity indentation*total injected NBI power#"coupled ECH power$%coupled ICRH power"(coupled LH power#+coupled IBW power .lost NBI power&1total radiated power04line averaged effective charge07line averaged electron density-:plasma surface loop voltage'=measured loop voltage%@internal inductance*Ccentral main ion density'Fthermal neutron yield/Ithermal plasma energy content-Ltotal plasma energy content+Ocore electron temperature&Rcore ion temperature4U"safety factor at 95% poloidal fluxX Ohmic power#[bootstrap current^ toroidal flux!aDT fusion power3d!interpolated electron temperature<g*error in interpolated electron temperature3j!experimental electron temperature<m*error in experimental electron temperature.pinterpolated ion temperature7s%error in interpolated ion temperature.vexperimental ion temperature7y%error in experimental ion temperature/|interpolated electron density8&error in interpolated electron density/experimental electron density8&error in experimental electron density/NBI electron power deposition0ICRH electron power deposition/ECH electron power deposition.LH electron power deposition/IBW electron power deposition*NBI ion power deposition+ICRH ion power deposition*ECH ion power deposition)LH ion power deposition*IBW ion power deposition%NBI electron source NBI ion source,NBI driven current profile-ICRH driven current profile,ECH driven current profile+LH driven current profile*fast ion density profile(radiated power densityH6stellarator (not tokamaks) vacuum rotational transform*effective charge profile3!error in effective charge profile'safety factor profile0error in safety factor profile8&estimated electron thermal diffusivity3!estimated ion thermal diffusivity/interpolated main ion density8&error in interpolated main ion density/experimental main ion density8&error in experimental main ion density3!interpolated 2nd main ion density<*error in interpolated 2nd main ion density3!experimental 2nd main ion density<*error in experimental 2nd main ion density3!interpolated 3rd main ion density<*error in interpolated 3rd main ion density3!experimental 3rd main ion density<*error in experimental 3rd main ion density3!interpolated impurity ion density<*error in interpolated impurity ion density3!experimental impurity ion density<*error in experimental impurity ion density%Ohmic power density-equipartition power density' total current density0 error in total current density/fitted toroidal angular speed8&error in fitted toroidal angular speed5#experimental toroidal angular speed>,error in experimental toroidal angular speedD2time derivative of electron thermal energy density?-time derivative of ion thermal energy density5!#time derivative of electron densityO$=ion particle source from ionisation of recycled wall neutralsE'3electron heat loss from ionisation of wall neutralsC*1ion heat loss from ionisation/CX of wall neutrals6-$fusion power deposition to electrons10fusion power deposition to ions?3-flux surface averaged poloidal magnetic field6 major radius9 minor radiusB triangularityE indentationH surface areaK <|grad rho|> N<|grad rho|^2>