************************************************************** * * * RUN OF DIVIMP VERSION 6A/10 * * --------------------------- * * * * 990429019 LP1 954 inner target data applied * * none * * * * c-990429019-a39-s4a.d6i * * * * 07/07/10 09:55:37 DIVIMP6A/10 * * * * sonnet_BLa39 * * * ************************************************************** --- TABLE OF CONTENTS ---GEOMETRY GRID AND WALL SECTION
- GEOMETRY GRID AND WALL OPTIONS
- GEOMETRY GRID AND WALL INFORMATION
- SUMMARY OF TARGET CONDITIONS
--- GEOMETRY AND GRID INFORMATION SECTION ---
--- GEOMETRY GRID AND WALL OPTIONS ---
GRID OPTION 3: STANDARD SONNET (UPGRADE, CMOD, DIIID) GRID FILES NON-OTHOGONAL OPT 3: NON-ORTHOGONAL TREATMENT BASED ON CALCULATING AN INDEPENDENT ORTHOGONAL CO-ORDINATE (THETAG) FROM THE GRID POLYGONS USABLE FOR JET OR SONNET GRIDS AND BASED ON THE METHODS USED IN JET GRIDS SHOULD BE USED WITH: PARALLEL DISTANCE OPTION 1 R,Z OPTION 1: THE GETRZ ROUTINE IS USED TO CALCULATE ACTUAL PARTICLE POSITION CELL AREAS OPTION 1: CALCULATED FROM POLYGON VERTICES ****** IMPORTANT NOTE ****** USE PARALLEL DISTANCE OPTION 1 AND CROSS-FIELD DISTANCE OPTION 1+ IN ORDER TO GET TRANSPORT AND PARTICLE DENSITIES COMPATIBLE WITH THIS METHOD OF CALCULATING CELL AREAS. PARALLEL DIST OPT 1: POLYGON GRID OPTION S DISTANCES ALONG THE FIELD LINES ARE CALCULATED BY TAKING THE DISTANCES BETWEEN THE MID-POINTS OF OPPOSING. CELL POLYGON SIDES AND PASSING THROUGH THE CENTRE OF THE CELL. CROSS-FIELD DIST 1: POLYGON GRID OPTION THE CROSS-FIELD DISTANCES REQUIRED FOR DIFFUSION BETWEEN RINGS ARE CALCULATED BY USING THE ACTUAL POLYGON CELL SIZES XY GRID OPTION 0 : OFF - XY GRID IS NOT GENERATED TARGET OPTION 6 : TARGET IS SPECIFIED BY THE OUTER POLYGON BOUNDARIES OF THE LAST SET OF REAL PLASMA POLYGONS ON EACH RING VIRTUAL POINTS ARE DISCARDED ION WALL OPTION 2 : ION WALLS AT THE POLYGON EDGE OF THE OUTERMOST RINGS OF POLYGONS. ION TRANSPORT TO WALLS IS THE SAME OPTION 0. NEUT WALL OPTION 2 : MAIN NEUTRAL WALLS SPECIFIED BY THE FOLLOWING VALUES IN THE INPUT FILE 1 0.4634 -0.2870 14 1.0616 0.3378 27 0.8192 -0.3571 2 0.4402 -0.2409 15 1.0616 0.0500 28 0.7605 -0.3728 3 0.4402 0.4314 16 1.0667 0.0500 29 0.7578 -0.3627 4 0.5607 0.5001 17 1.0667 0.1500 30 0.7572 -0.3612 5 0.5699 0.5121 18 1.2000 0.1500 31 0.7564 -0.3597 6 0.5699 0.5794 19 1.2000 -0.1500 32 0.7553 -0.3585 7 0.5729 0.5794 20 1.0667 -0.1500 33 0.7540 -0.3574 8 0.6022 0.5959 21 1.0667 -0.0500 34 0.7529 -0.3566 9 0.6999 0.5959 22 1.0616 -0.0500 35 0.7510 -0.3560 10 0.6999 0.4030 23 1.0616 -0.3378 36 0.7494 -0.3557 11 0.7649 0.3855 24 0.9553 -0.3378 37 0.7477 -0.3557 12 0.7657 0.3886 25 0.8235 -0.3732 38 0.7461 -0.3560 13 0.9553 0.3378 26 0.8208 -0.3632 39 0.7020 -0.3678 TRAP WALL OPTION 3 : NEUTRAL TRAP WALL SPECIFIED BY SET OF ADDITIONAL COORDINATES. IONS ARE TREATED AS SPECIFIED IN THE SELECTED WALL OPTION. TRAP WALL SPECIFIED BY 1 0.6273 -0.5601 8 0.7800 -0.6050 15 0.6022 -0.6000 2 0.6295 -0.5739 9 0.8200 -0.6050 16 0.5729 -0.5794 3 0.6500 -0.5739 10 0.8200 -0.6450 17 0.5699 -0.5794 4 0.6500 -0.4500 11 0.7200 -0.6450 18 0.5699 -0.5121 5 0.8200 -0.4000 12 0.7200 -0.6050 19 0.5607 -0.5001 6 0.8200 -0.6000 13 0.7600 -0.6050 20 0.4621 -0.4737 7 0.7800 -0.6000 14 0.7600 -0.6000 21 0.0000 0.0000 VESSEL REDEF OPT 0 : VESSEL REDEFINITION IS OFF WALL AND TARGET TEMPERATURES IN USE: Default Target Temperature (K) = 600.000 Default Vessel Wall Temp. (K) = 453.000 Default PP Wall Temperature (K) = 453.000 NEUTRAL WALL ELEMENT LISTING: R (m) Z (m) Wall # Target # 0.4518 -0.2640 1 0 0.6141 -0.4685 47 9 0.4402 0.0953 2 0 0.6152 -0.4814 48 10 0.5005 0.4658 3 0 0.6168 -0.4928 49 11 0.5653 0.5061 4 0 0.6183 -0.5029 50 12 0.5699 0.5458 5 0 0.6198 -0.5123 51 13 0.5714 0.5794 6 0 0.6212 -0.5211 52 14 0.5875 0.5877 7 0 0.6225 -0.5297 53 15 0.6510 0.5959 8 0 0.6239 -0.5382 54 16 0.6999 0.4994 9 0 0.6252 -0.5468 55 17 0.7324 0.3943 10 0 0.6266 -0.5556 56 18 0.7653 0.3871 11 0 0.6284 -0.5670 57 0 0.8605 0.3632 12 0 0.6398 -0.5739 58 0 1.0085 0.3378 13 0 0.6500 -0.5120 59 0 1.0616 0.1939 14 0 0.7350 -0.4250 60 0 1.0641 0.0500 15 0 0.8200 -0.5000 61 0 1.0667 0.1000 16 0 0.8000 -0.6000 62 0 1.1334 0.1500 17 0 0.7800 -0.6025 63 0 1.2000 0.0000 18 0 0.8000 -0.6050 64 0 1.1334 -0.1500 19 0 0.8200 -0.6250 65 0 1.0667 -0.1000 20 0 0.7700 -0.6450 66 0 1.0641 -0.0500 21 0 0.7200 -0.6250 67 0 1.0616 -0.1939 22 0 0.7400 -0.6050 68 0 1.0085 -0.3378 23 0 0.7600 -0.6025 69 0 0.8894 -0.3555 24 0 0.6811 -0.6000 70 0 0.8221 -0.3682 25 0 0.5875 -0.5897 71 0 0.8200 -0.3602 26 0 0.5714 -0.5794 72 0 0.7898 -0.3650 27 0 0.5699 -0.5458 73 0 0.7592 -0.3677 28 0 0.5653 -0.5061 74 0 0.7575 -0.3619 29 0 0.5114 -0.4869 75 0 0.7568 -0.3604 30 0 0.4607 -0.4733 76 21 0.7558 -0.3591 31 0 0.4582 -0.4725 77 22 0.7546 -0.3580 32 0 0.4564 -0.4713 78 23 0.7535 -0.3570 33 0 0.4562 -0.4690 79 24 0.7520 -0.3563 34 0 0.4585 -0.4651 80 25 0.7502 -0.3558 35 0 0.4633 -0.4593 81 26 0.7485 -0.3557 36 0 0.4700 -0.4522 82 27 0.7469 -0.3558 37 0 0.4778 -0.4437 83 28 0.7241 -0.3619 38 0 0.4865 -0.4335 84 29 0.6887 -0.3757 39 0 0.4952 -0.4210 85 30 0.6684 -0.3887 40 2 0.5023 -0.4047 86 31 0.6551 -0.3987 41 3 0.5047 -0.3853 87 32 0.6431 -0.4077 42 4 0.5012 -0.3665 88 33 0.6326 -0.4167 43 5 0.4945 -0.3497 89 34 0.6237 -0.4270 44 6 0.4865 -0.3331 90 35 0.6174 -0.4397 45 7 0.4776 -0.3154 91 36 0.6143 -0.4542 46 8 0.4682 -0.2966 92 37 GEOMETRY OPTION -1 : SHOT WALL AND TARGET DATA IS NOT PRE-LOADED--- GEOMETRY AND GRID INFORMATION ---
GRID CHARACTERISTICS: NO OF RINGS 26 NO OF R PTS FOR RECTANGULAR GRID 0 NO OF Z PTS FOR RECTANGULAR GRID 0 NO OF T PTS FOR RESULTS 0 TORUS GEOMETRY RUN SONNET GRID (AUG,CMOD,DIIID,TDV...) SHOT NUMBER 0 TIME SLICE 0.000E+00 LOWER LEFT CORNER (RMIN,ZMIN) 0.4384 -0.5648 UPPER RIGHT CORNER (RMAX,ZMAX) 0.9039 0.3878 CENTRE (RO ,ZO ) 0.648 -2.145E-02 X POINT (RXP ,ZXP ) 0.5637 -0.3984 TOROIDAL FIELD BPHI 2.000 WARNING: THIS GRID HAS THE X-POINT AT THE BOTTOM MAGNETIC GEOMETRY - RING NUMBERS TOTAL NUMBER OF RINGS 26 MAIN PLASMA RINGS 1 7 SOL RINGS 8 19 TRAP RINGS 20 26 SEPARATRIX 8 WALL RING 19 TRAP WALL RING 20 RING CHARACTERISTICS: Ring No. Length (m) 1 48.7111 14 24.4695 2 18.7121 15 23.8736 3 19.8876 16 23.8322 4 21.0476 17 24.4257 5 22.2460 18 26.0873 6 23.5853 19 72.6202 7 25.9158 20 25.1468 8 39.5565 21 7.5235 9 34.1100 22 7.8934 10 31.6827 23 8.3716 11 29.5113 24 9.0071 12 27.4847 25 9.9741 13 25.7036 26 12.8859 WALL CHRACTERISTICS - INDEX NUMBERS: FIRST AND LAST FOR OUTER WALL 1 39 FIRST PLATE 40 56 FIRST AND LAST FOR PRIVATE PLASMA WALL 57 75 SECOND PLATE 76 92 SUMMARY OF SEPARATRIX GEOMETRY: POLOIDAL LENGTH OF SEPARATRIX = 0.000E+00 TOROIDAL AREA OF SEPARATRIX = 0.000E+00 EFFECTIVE POLOIDAL LENGTH OF SEPARATRIX = 0.000E+00 EFFECTIVE TOROIDAL AREA OF SEPARATRIX = 0.000E+00 TARGET ELEMENT GEOMETRY: ID IK IR R Z PSI LENGTH Bth/B 1 54 19 0.67572 -0.38307 0.000000 0.00000 0.49776E-01 2 54 18 0.66842 -0.38875 1.064010 0.01748 0.45565E-01 3 54 17 0.65505 -0.39865 1.052878 0.01579 0.38390E-01 4 54 16 0.64312 -0.40774 1.043464 0.01421 0.32680E-01 5 54 15 0.63260 -0.41674 1.035475 0.01351 0.28365E-01 6 54 14 0.62373 -0.42701 1.028696 0.01379 0.25694E-01 7 54 13 0.61739 -0.43975 1.022866 0.01495 0.25275E-01 8 54 12 0.61435 -0.45424 1.017756 0.01488 0.27063E-01 9 54 11 0.61408 -0.46849 1.013248 0.01369 0.29954E-01 10 54 10 0.61520 -0.48142 1.009186 0.01229 0.32870E-01 11 54 9 0.61676 -0.49282 1.005421 0.01073 0.35362E-01 12 54 8 0.61831 -0.50294 1.001833 0.00975 0.37377E-01 13 18 26 0.61978 -0.51226 0.998326 0.00911 0.39014E-01 14 18 25 0.62117 -0.52111 0.994872 0.00880 0.40348E-01 15 18 24 0.62253 -0.52970 0.991474 0.00859 0.41426E-01 16 18 23 0.62387 -0.53819 0.988130 0.00861 0.42275E-01 17 18 22 0.62522 -0.54677 0.984840 0.00875 0.42910E-01 18 18 21 0.62661 -0.55558 0.981603 0.00910 0.43339E-01 19 18 20 0.62681 -0.55880 0.000000 0.00000 0.43466E-01 20 1 20 0.46284 -0.47329 0.000000 0.00000 0.45765E-01 21 1 21 0.46075 -0.47333 0.981646 0.00276 0.46174E-01 22 1 22 0.45824 -0.47252 0.984870 0.00252 0.46342E-01 23 1 23 0.45642 -0.47131 0.988153 0.00200 0.46248E-01 24 1 24 0.45623 -0.46904 0.991498 0.00313 0.45525E-01 25 1 25 0.45851 -0.46509 0.994897 0.00613 0.43859E-01 26 1 26 0.46333 -0.45934 0.998346 0.00890 0.41251E-01 27 1 8 0.46998 -0.45216 1.001842 0.01068 0.37918E-01 28 1 9 0.47784 -0.44366 1.005426 0.01247 0.34004E-01 29 1 10 0.48648 -0.43352 1.009186 0.01418 0.29641E-01 30 1 11 0.49520 -0.42099 1.013255 0.01643 0.25156E-01 31 1 12 0.50234 -0.40471 1.017775 0.01939 0.21646E-01 32 1 13 0.50468 -0.38528 1.022886 0.02036 0.21393E-01 33 1 14 0.50125 -0.36645 1.028705 0.01828 0.24724E-01 34 1 15 0.49453 -0.34970 1.035471 0.01787 0.29582E-01 35 1 16 0.48647 -0.33307 1.043431 0.01909 0.34917E-01 36 1 17 0.47759 -0.31536 1.052815 0.02054 0.40579E-01 37 1 18 0.46817 -0.29660 1.063974 0.02144 0.46383E-01 38 1 19 0.46332 -0.28669 0.000000 0.00000 0.49357E-01--- BACKGROUND PLASMA SECTION ---
PLASMA ION MASS MB 2.000 PLASMA ION CHARGE ZB 1--- BACKGROUND PLASMA OPTIONS ---
PLASMA DECAY OPT 91: PIECE-WISE BACKGROUND PLASMA BASE PLASMA FROM REGULAR OPTIONS. PLASMA DECAY = 4 SOL OPTION = 6 Te Grad Opt = 0 Ti Grad Opt = 0 CORE OPTION = 0 E-FIELD OPT = 3 SPECIFIC RING SECTIONS WERE OVERLAID WITH THE FOLLOWING OPTIONS. Section: 1 = ����� 2 = ����� 3 = WHOLE RING Ring1 to Ring2 Sect PlasDec SOL TeGrad TiGrad Core E-field 21 26 3 4 22 0 0 0 0 8 18 3 4 22 0 0 0 0 FC READ OPT 0 : FLUID CODE Background is NOT read in separately for reference. SOL OPTION 6 : SOL6, FIXED E-field, Variable V Eout = 0.000E+00 Base Velocity Vhout (V0) = 0.000E+00 Fixed at V0 to .166 * SMAX Then fixed at .000E+00 *V0 to .500 * SMAX Then fixed at .000E+00 *V0 to SMAX/2.0 SOL OPTION 22 : Runge Kutta SOL equation solver SOL OPTION 22: SUB-OPTIONS AND RESULTS SUMMARY SOL22: SUMMARY OF OPTIONS AND INPUT VALUES GAMMA CORRECTION FACTOR IN GAMMAI 0.00000000E+00 GAMMA CORRECTION FACTOR IN GAMMAE 0.00000000E+00 RECYCLING SOURCE FRACTION IS OFF - RECYCLING SOURCE FRACTION = 1.0 INITIAL NUMBER OF RUNGE-KUTTA STEPS BETWEEN EACH GRID KNOT IN SOLVER: 100 T FORCE OPTION 1: TE AND TI ARE LOCKED TOGETHER. BASED ON THE ELECTRON ENERGY EQUATION. VEL/COR OPT 1 : VELOCITY HELD CONSTANT WHEN IMAGINARY RESULT FOUND. LENGTH OPTION 1 : LENGTHS ARE FOR RELATIVE UNITS * SMAX UNLESS INDICATED OTHERWISE. MAIN IONIZATION OPTION: IONIZATION OPT 2: PIN DATA READ FOR IONIZATION SOURCE DATA IS UNNORMALIZED. DATA FOR IONIZATION SOURCE IS RETURNED FROM A PIN/NIMBUS RUN AND IS LINEARLY INTERPOLATED FOR VALUES BETWEEN GRID POINTS. THE DATA IS USED AS-IS AND IS NOT NORMALIZED TO THE TARGET FLUX FOR THE RING. INITIAL SEED PLASMA OPTION: INIT IONIZ OPT 0: EXPONENTIAL DECAY IONIZATION SOURCE LENGTH OF IONIZATION SOURCE 0.40000000 DECAY LENGTH OF IONIZATION SOURCE 5.00000000E-02 PRIVATE PLASMA IONIZATION OPTION: - NOTE.1: If the main Ionization Option has been specified as PIN iterated (e.g. Options 1,2,8). Then the value specified here is ONLY used for the seed plasma solution. The PIN iterated ionization option will be used the rest of the time - except in the case of option -2 which will use the prescribed private plasma. - NOTE.2: The Edge2D seed plasma option takes prcedence over option -2. PP IONIZ OPT -2: ALL PP CONDITIONS ARE PRESCRIBED BY THE FOLLOWING FACTORS ALL DISTANCES ARE PROPORTIONS OF SMAX FOR THE RING QUANTITIES ARE LINEARLY INTERPOLATED BETWEEN POINTS AND CONSTANT OUTSIDE RANGE AT END-POINT VALUES (S,Te) : (0.0,Tet) -> ( 0.010, 1.000*Tet) -> ( 0.500, 1.000*Tet) (S,Ti) : (0.0,Tit) -> ( 0.010, 1.000*Tit) -> ( 0.500, 1.000*Tit) (S,Ne) : (0.0,Net) -> ( 0.010, 1.000*Net) -> ( 0.500, 1.000*Net) (S,Vb) : (0.0,Vbt) -> ( 0.010, 0.000*Vbt) -> ( 0.500, 0.000*Vbt) 5/2 NV*kT OPT 1 : THIS TERM IF ON 1/2 mV^3N OPT 1 : THIS TERM IS ON PRAD OPTION 0 : PRAD TERM TERM IS OFF PHELPI OPTION 2 : PINQE TERM IS ON INTERNAL TERM IS ON FOR SEED PLASMA SEE MANUAL FOR DETAILS. PCX OPTION 0 : PCX TERM IS OFF PP ELEC POW OPTION 0: PP ELECTRON POWER LOSS COMPENSATION TERM IS OFF PP ION POW OPTION 0 : PP ION POWER LOSS COMPENSATION TERM IS OFF MOMENTUM OPT 9 : MOMENTUM LOSS TERM IS ON BASED ON CX EXCHANGE MOMENTUM CROSS-SECTIONS TAKEN FROM THE EDGE2D/NIMBUS IMPLEMENTATION. REF: WOJCIECH MOMENTUM LOSS MULTIPLIED BY RCXIZ RCXIZ= 1.00000000 MACH OPTION 2 : ITERATIVE MACH SOLUTION IS ON TARGET DENSITY VARIES WITH MACH NUMBER TO MAINTAIN A CONSTANT TARGET FLUX. EDGE2D BG OPT 0 : COMPATIBILITY IS OFF SOLVER RUNS FROM THE ACTUAL TARGET IF E2D TARGET OPTION 5 IS SELECTED THEN THE EDGE2D DOWN POWER FLUXES WILL ALSO BE USED IN THE SOLVER POWER DIST OP 13: FULL RING GENERAL POWER DISTRIBUTION DIST SWITCH: 1.000 PP POWER OPT 10: DISTRIBUTED INFLUX IS ON TARGET POWER FLUX IS DISTRIBITED LINEARLY OVER A SPECIFIED RANGE. IF PIN BASED VOLUME POWER SOURCES ARE ON THEN THE INTEGRAL OF THESE IS ALSO DISTRIBUTED. STARTING POINT = SMAX * 0.10000000 ENDING POINT = SMAX * 0.50000000 PERP FLUX OPT 2: TERM IS ON NET FLUX OVER ENTIRE FIELD LINE ->0 USING AN EVENLY DISTRIBUTED PERPENDICULAR FLUX. PP PERPF OPT 6: TERM IS ON NET FLUX OVER THE ENTIRE FILED LINE ->0 USING AN EVENLY DISTRIBUTED PERPENDICULAR FLUX OVER THE WHOLE FIELD LINE AND A RECTANGULAR SOURCE BETWEEN THE FOLLOWING POINTS FROM EACH TARGET START = SMAX * 0.00000000E+00 END = SMAX * 0.10000000 FRACTION IN RECTANGULAR = 0.80000000 FRACTION UNIFORM = 0.20000000 MAJOR RADIUS 0: MAJOR RADIUS FACTOR IS OFF RECOMB OPT 1 : TERM IS ON RECOMBINATION PARTICLE SOURCE ADDED TO FLUX TE CUTOFF FOR RECOMBINATION = 0.000E+00 RECOMBINATION RATES ARE LIMITED BY THE T LISTED. SMOOTHING OPT 0 : SMOOTHING IS TURNED OFF VALUES WILL NOT MATCH AT THE MID-POINT DETACHED OPT 0 : DETACHED PLASMA OVERRIDE OPTION IS OFF ERROR OPTION 0 : AUTOMATIC ERROR CORRECTION IS TURNED OFF SOL 22: REPORT OF RESULTS SUMMARY OF OVER/UNDER IONIZATION BY RING: IR RCONST Gperp OPTION USED 8 -4.540781E+17 2.00 9 -6.733012E+21 2.00 10 -1.110773E+22 2.00 11 1.574416E+21 2.00 12 7.387932E+21 2.00 13 7.905221E+21 2.00 14 1.040802E+22 2.00 15 9.253516E+21 2.00 16 7.589711E+21 2.00 17 5.513934E+21 2.00 18 3.476175E+21 2.00 19 0.000000E+00 2.00 20 0.000000E+00 6.00 21 0.000000E+00 6.00 22 0.000000E+00 6.00 23 0.000000E+00 6.00 24 0.000000E+00 6.00 25 0.000000E+00 6.00 26 0.000000E+00 6.00 MACH SOLVER ACTIVATED SUMMARY OF TARGET MACH NUMBERS: Ring : 8 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 9 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 10 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 11 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 12 Inner M#: 1.000000 Outer M#: 1.204137 Ring : 13 Inner M#: 1.000000 Outer M#: 1.455850 Ring : 14 Inner M#: 1.000000 Outer M#: 1.446450 Ring : 15 Inner M#: 1.000000 Outer M#: 1.453503 Ring : 16 Inner M#: 1.000000 Outer M#: 1.411507 Ring : 17 Inner M#: 1.000000 Outer M#: 1.356908 Ring : 18 Inner M#: 1.000000 Outer M#: 1.343333 Ring : 19 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 20 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 21 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 22 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 23 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 24 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 25 Inner M#: 1.000000 Outer M#: 1.000000 Ring : 26 Inner M#: 1.000000 Outer M#: 1.000000 DELTA M0 FOR FIRST MACH ITERATION : 0.10000000 ULTIMATE RESOLUTION OF MACH NUMBER : 1.00000000E-05 SUMMARY OF INTEGRATED CONDUCTIVE POWER RATIOS: RING CONDe/Qetot CONDi/Qitot COND/Qtot 8 OUTER: 0.9910321 1.0048069 1.0000656 8 INNER: 0.8647158 0.8877015 0.8773534 9 OUTER: 0.9098696 1.0569243 1.0006005 9 INNER: 1.0670689 1.0561317 1.0608314 10 OUTER: 0.9010952 1.0635381 1.0015547 10 INNER: 1.1170750 1.0878189 1.1001052 11 OUTER: 0.9881411 1.0073417 1.0000278 11 INNER: 0.8499891 0.8588542 0.8546043 12 OUTER: 0.9778048 0.9705840 0.9746317 12 INNER: 0.7287942 0.6581644 0.6972369 13 OUTER: 0.9859483 0.9140658 0.9594818 13 INNER: 0.7329422 0.6453570 0.6948995 14 OUTER: 1.0311530 0.8223797 0.9470280 14 INNER: 0.6989048 0.5878519 0.6515903 15 OUTER: 1.0306014 0.8480504 0.9479777 15 INNER: 0.7282888 0.6232859 0.6839398 16 OUTER: 1.0445119 0.8539017 0.9850583 16 INNER: 0.7437361 0.6328172 0.6942795 17 OUTER: 1.0338562 0.4058185 0.9475755 17 INNER: 0.7641950 0.6018473 0.6984485 18 OUTER: 1.0031435 0.9971181 1.0009848 18 INNER: 0.7296384 0.5946514 0.6908483 19 OUTER: 0.0000000 0.0000000 0.0000000 19 INNER: 0.0000000 0.0000000 0.0000000 20 OUTER: 0.0000000 0.0000000 0.0000000 20 INNER: 0.0000000 0.0000000 0.0000000 21 OUTER: 0.0000000 0.0000000 0.0000000 21 INNER: 0.0000000 0.0000000 0.0000000 22 OUTER: 0.0000000 0.0000000 0.0000000 22 INNER: 0.0000000 0.0000000 0.0000000 23 OUTER: 0.0000000 0.0000000 0.0000000 23 INNER: 0.0000000 0.0000000 0.0000000 24 OUTER: 0.0000000 0.0000000 0.0000000 24 INNER: 0.0000000 0.0000000 0.0000000 25 OUTER: 0.0000000 0.0000000 0.0000000 25 INNER: 0.0000000 0.0000000 0.0000000 26 OUTER: 0.0000000 0.0000000 0.0000000 26 INNER: 0.0000000 0.0000000 0.0000000 SLMOD SUB-POWER DIST OPTION: 1 SWPOW2 [SORRY, TAG "SWPOW2 1" NOT FOUND] PIN ITERATION OPT 1: THE SOL IS CALCULATED ITERATIVELY. USING SOL OPT 6 WITH PIN DATA AVAILABLE OTHER PRINTED BACKGROUND OPTIONS APPLY TO THE FIRST ITERATION TEB GRADIENT OPT 0 : LINEAR, FROM TEB0.FEBT AT TARGET TO TEB0 AT FEBL1.SMAX, THEN CONSTANT TIB GRADIENT OPT 0 : LINEAR, FROM TIB0.FIBT AT TARGET TO TIB0 AT FIBL1.SMAX, THEN CONSTANT DENSITY GRAD OPT 0 : CONSTANT NE - NO GRADIENT APPLIED TEB GRAD COEFF 1 : ALPHAE = 0.71 ZI.ZI 0.71 2.84 6.39 11.36 17.75 25.56 TIB GRAD COEFF 1 : BETAI=-3(1-MU-5.ZI.ZI.SQRT(2MU)MU(1.1MU- 0.35))/(2.6-2MU+5.4MU.MU), MU=MI/(MI+MB) 1.97 8.14 18.42 32.82 51.32 73.94 F-GRAD MOD OPTION 0: OFF - The temperature gradient forces are NOT corrected for kinetic effects. The force modifier is set equal to 1.0 everywhere. E-FIELD OPTION 3 : ELECTRIC FIELD CALCULATED USING THE DENSITY AND TEMPERATURES AND A SIMPLE FORMULA BASED ON PRESSURE AND TEMPERATURE GRADIENTS. ELECTRIC FIELD OPTION ALSO APPLIES IN THE PRIVATE PLASMA CORE DECAY OPT 0 : STANDARD - PROFILES FLAT IN CORE Specified by quantities above PRIVATE PLASMA BG 1: SOL BACKGROUND PLASMA OPTIONS ON IN TRAP THE PRIVATE PLASMA IS CALCULATED USING THE SPECIFIED SOL OPTION. PIN RUN OPT 1 : PIN IS EXECUTED. SOME RESULTS RETAINED. THE PIN INVOCATION COMMAND IS: reire99 EIRENE-99 called for hydrogenic data EIRENE GEOMETRY DATA OPTION: 1 EIRGEOM Passed from DIVIMP. EIRENE INPUT FILE OPTION: 1 EIRDATA An EIRENE input file is generated by DIVIMP. The file is based on an existing input file (template file), with modifications made by DIVIMP where necessary. EIRENE options that cannot be set by input to DIVIMP must be changed in the template file. RUN TIME (CPU seconds) 240 SURFACE MATERIAL: TARGET CARBON WALL CARBON SURFACE TEMPERATURE (eV): TARGET 5.168E-02 WALL 3.902E-02 GRID TYPE OPTION 1 N-N COLLISION OPTION: 1 EIRBGK Neutral-neutral collisions are included on the standard grid. LYMAN ALPHA OPACITY OPTION: 0 EIROPACITY The effect of Lyman alpha opacity is not included. CX D2+ PRODUCTION OPTION: 0 EIRCXD2 [SORRY, TAG "EIRCXD2 0" NOT FOUND] PROTON-D2 COLLISIONS OPTION: 1 EIRPH2 [SORRY, TAG "EIRPH2 1" NOT FOUND] PRESSURE GAUGE DATA: Pressure gauges are represented in EIRENE by toroidally continuous cylinders. (X,Y) is the co-ordinate of the axis of the cylinder in machine space, "P_exp" is the experimental pressure measurement, "P_D" is the atomic hydrogen pressure and "P_D2" is the molecular hydrogen pressure (all pressures are in mTorr). The same notation is used for the temperature, T (eV), and the density, n (m-3). T_exp is the temperature used in the ionisation gauge calibration (300 K), and is used to calculate n_exp from p_exp. The data are for the final EIRENE iteration only (plot 970, sub-plot 17 in OUT shows the iteration history of pressure gauge data). CODE X (m) Y (m) P_exp P_D P_D2 1 1.133 -0.100 1.49E-01 6.78E-05 1.01E-03 ������������������������������ 2 0.740 -0.625 1.53E+01 1.60E-03 1.56E+00 ������������������������������ CODE X (m) Y (m) T_exp T_D T_D2 1 1.133 -0.100 0.026 -nan 0.026 2 0.740 -0.625 0.026 -nan 0.026 CODE X (m) Y (m) n_exp n_D n_D2 1 1.133 -0.100 4.80E+18 0.00E+00 4.76E+16 2 0.740 -0.625 4.92E+20 0.00E+00 5.23E+19 AVERAGES (over iteration): CODE X (m) Y (m) P_exp P_D P_D2 1 1.133 -0.100 1.49E-01 0.00E+00 1.50E-03 ������������������������������ 2 0.740 -0.625 1.53E+01 0.00E+00 1.64E+00 ������������������������������ CODE X (m) Y (m) T_exp T_D T_D2 1 1.133 -0.100 0.026 -nan 0.026 2 0.740 -0.625 0.026 -nan 0.026 CODE X (m) Y (m) n_exp n_D n_D2 1 1.133 -0.100 4.80E+18 0.00E+00 4.76E+16 2 0.740 -0.625 4.92E+20 0.00E+00 5.23E+19 NEUTRAL HYDROGEN FLUX DATA: The atomic and molecular flux data returned from EIRENE for hydrogen neutrals is given below. "Ind" is the surface index in the PIN neutral wall arrays (xVESM), (r,z) is the center of the surface in machine coordinates, "parflx" denotes the particle flux and "avgeng" is the average energy of particles. Only data for surfaces whose center z-coordinate is below the x-point are given. The data are from the final EIRENE iteration only. Ind r z D_parflx D_avgeng D2_parflx D2_avgeng (m) (m) (m-2 s-1) (eV) (m-2 s-1) (eV) 1 0.461 -0.473 8.18E+21 21.455 1.39E+22 1.067 2 0.458 -0.473 1.36E+22 9.523 1.47E+22 1.441 3 0.456 -0.471 1.47E+22 6.174 1.66E+22 0.968 4 0.456 -0.469 1.45E+22 12.508 1.59E+22 0.999 5 0.459 -0.465 1.48E+22 4.623 1.16E+22 1.105 6 0.463 -0.459 7.35E+21 8.024 1.08E+22 1.259 7 0.470 -0.452 1.01E+22 12.744 7.24E+21 1.315 8 0.478 -0.444 7.75E+21 6.657 7.40E+21 1.319 9 0.486 -0.434 1.26E+22 7.418 5.21E+21 1.854 10 0.495 -0.421 1.08E+22 13.777 3.61E+21 3.073 11 0.502 -0.405 8.72E+21 19.606 9.91E+20 2.472 58 0.655 -0.399 6.40E+21 10.835 8.32E+20 5.172 59 0.643 -0.408 6.89E+21 39.227 3.75E+20 2.450 60 0.633 -0.417 7.29E+21 34.918 1.03E+21 1.721 61 0.624 -0.427 4.34E+21 75.800 3.54E+20 5.603 62 0.617 -0.440 4.66E+21 19.165 5.42E+20 5.082 63 0.614 -0.454 4.23E+21 21.186 5.47E+20 4.237 64 0.614 -0.468 5.84E+21 20.509 3.81E+20 1.764 65 0.615 -0.481 8.70E+21 17.409 6.72E+20 1.780 66 0.617 -0.493 9.54E+21 15.098 1.27E+21 3.730 67 0.618 -0.503 3.75E+22 11.373 3.80E+21 3.313 68 0.620 -0.512 5.19E+22 6.839 1.17E+22 2.044 69 0.621 -0.521 2.38E+22 4.842 1.75E+22 1.721 70 0.623 -0.530 1.28E+22 3.596 1.72E+22 1.238 71 0.624 -0.538 7.96E+21 4.851 1.41E+22 1.040 72 0.625 -0.547 5.12E+21 3.960 1.68E+22 0.981 73 0.627 -0.556 4.47E+21 4.550 2.14E+22 0.563 74 0.628 -0.567 3.14E+21 4.369 1.86E+22 0.076 75 0.640 -0.574 1.83E+21 4.128 2.13E+22 0.039 76 0.650 -0.512 7.13E+19 3.405 2.11E+22 0.039 77 0.735 -0.425 9.57E+19 5.812 1.84E+22 0.039 78 0.820 -0.500 2.31E+20 4.180 1.67E+22 0.039 79 0.800 -0.600 4.80E+19 8.930 1.68E+22 0.039 80 0.780 -0.603 0.00E+00 0.000 1.56E+22 0.039 81 0.800 -0.605 0.00E+00 0.000 1.54E+22 0.039 82 0.820 -0.625 0.00E+00 0.000 1.51E+22 0.039 83 0.770 -0.645 0.00E+00 0.000 1.67E+22 0.039 84 0.720 -0.625 0.00E+00 0.000 1.81E+22 0.039 85 0.740 -0.605 0.00E+00 0.000 1.81E+22 0.039 86 0.760 -0.603 4.72E+20 1.857 1.60E+22 0.039 87 0.681 -0.600 1.51E+21 6.433 2.00E+22 0.112 88 0.588 -0.590 9.99E+21 7.878 1.91E+22 0.532 89 0.571 -0.579 1.21E+22 6.378 1.74E+22 0.485 90 0.570 -0.546 1.13E+22 7.260 1.75E+22 0.553 91 0.565 -0.506 1.31E+22 8.435 7.18E+21 1.493 92 0.511 -0.487 7.66E+21 16.715 4.73E+21 1.082 DATA OUTPUT FOR EACH STEP STEP 1 Pressure table: CODE X (m) Y (m) P_exp P_D P_D2 1 1.133 -0.100 1.49E-01 6.78E-05 1.01E-03 ������������������������������ 2 0.740 -0.625 1.53E+01 1.60E-03 1.56E+00 ������������������������������ CODE X (m) Y (m) T_exp T_D T_D2 1 1.133 -0.100 0.026 -nan 0.026 2 0.740 -0.625 0.026 -nan 0.026 CODE X (m) Y (m) n_exp n_D n_D2 1 1.133 -0.100 4.80E+18 0.00E+00 4.76E+16 2 0.740 -0.625 4.92E+20 0.00E+00 5.23E+19 AVERAGES (over iteration): CODE X (m) Y (m) P_exp P_D P_D2 1 1.133 -0.100 1.49E-01 1.37E-04 1.46E-03 ������������������������������ 2 0.740 -0.625 1.53E+01 3.62E-04 1.68E+00 ������������������������������ CODE X (m) Y (m) T_exp T_D T_D2 1 1.133 -0.100 0.026 1.053 0.026 2 0.740 -0.625 0.026 1.299 0.026 CODE X (m) Y (m) n_exp n_D n_D2 1 1.133 -0.100 4.80E+18 1.08E+14 4.64E+16 2 0.740 -0.625 4.92E+20 2.32E+14 5.36E+19 PIN PRINT OPTION 0 : STANDARD PIN DATA PRINT OPTION PIN Source Characteristics: CALCULATED FROM INDIVIDUAL SEGMENT DATA: TOTAL PRIMARY INTEGRATED ATOM+ION FLUX 1.162E+22 TOTAL PRIMARY INTEGRATED FLUX*YIELD 0.000E+00 TOTAL INTEGRATED Z-REDEPOSITION 0.000E+00 TOTAL ATOMIC H HEAT FLUX TO SURFACES 1.998E+04 ATOM HEAT+REC POWER FLUX TO SURFACES 2.224E+04 MOL H HEAT FLUX TO SURFACES (E=SURF T) 144.327 PIN HYBRID WALL 0 : STANDARD WALL FROM THE EQUILIBRIUM FILE IS USED IN PIN PIN : L-Equiv VALUES BASED ON PIN IONIZATION DATA Ring ����� Plate ����� Plate 8 3.16748 1.32185 9 2.42194 1.20152 10 2.08474 1.10311 11 1.92139 1.27411 12 1.72984 1.14462 13 1.57443 1.00128 14 1.23445 0.788513 15 1.05437 0.625599 16 0.827650 0.555715 17 0.680122 0.403004 18 0.753065 0.770245 19 0.000000E+00 0.000000E+00 20 0.000000E+00 0.000000E+00 21 1.72897 1.37875 22 1.68441 1.28480 23 0.711912 1.37826 24 3.10510 1.38258 25 4.34261 1.55950 26 5.60682 1.39965--- INPUT PLASMA CONDITIONS ---
TEMPERATURE OF ELECTRONS TEB0 (EV) 5.268 GRADIENT DISTANCE FACTOR FEBL1 0.000E+00 GRADIENT DISTANCE FACTOR FEBL2 0.000E+00 GRADIENT TARGET FRACTION FEBT 1.000 GRADIENT TARGET FRACTION FEB2 1.000 PRIVATE PLASMA CONSTANT TEBT (EV) 10.000 INNER TEB STEP TEBIN (EV) 250.000 TEB SPECIFIED BY INPUT DATA/RING �����/����� TEB ����� INPUT MULTIPLIER: 1.000 TEB ����� INPUT MULTIPLIER: 1.000 TEMPERATURE OF IONS TIB0 (EV) 5.268 GRADIENT DISTANCE FACTOR FIBL1 0.000E+00 GRADIENT DISTANCE FACTOR FIBL2 0.000E+00 GRADIENT TARGET FRACTION FIBT 1.000 GRADIENT TARGET FRACTION FIB2 1.000 PRIVATE PLASMA CONSTANT TIBT (EV) 10.000 INNER TIB STEP TIBIN (EV) 250.000 TIB SPECIFIED BY INPUT DATA/RING �����/����� TIB ����� INPUT MULTIPLIER: 1.000 TIB ����� INPUT MULTIPLIER: 1.000 PRIVATE PLASMA CONSTANT NBT (M**-3) 1.000E+19 INNER NB STEP NBIN (M**-3) 5.000E+18 Isat SPECIFIED BY INPUT DATA/RING �����/����� - CONVERTED TO NB NB ����� INPUT MULTIPLIER: 1.000 NB ����� INPUT MULTIPLIER: 1.000 ����� PLATE DATA: ����� PLATE DATA: Ring Te(eV) Ti(eV) Jsat(s-1 m-2) Ring Te(eV) Ti(eV) Jsat(s-1 m-2) 8 7.05 7.05 7.44E+05 8 3.48 3.48 1.98E+04 9 8.86 8.86 3.11E+05 9 4.26 4.26 3.42E+04 10 10.92 10.92 3.82E+05 10 4.99 4.99 3.99E+04 11 9.52 9.52 2.39E+05 11 5.11 5.11 4.98E+04 12 8.97 8.97 2.25E+05 12 4.54 4.54 1.48E+05 13 8.46 8.46 2.25E+05 13 4.11 4.11 1.71E+05 14 8.30 8.30 2.04E+05 14 3.83 3.83 1.38E+05 15 8.17 8.17 1.77E+05 15 3.54 3.54 1.07E+05 16 8.02 8.02 1.45E+05 16 3.53 3.53 1.04E+05 17 7.85 7.85 1.08E+05 17 3.51 3.51 1.00E+05 18 7.68 7.68 7.37E+04 18 3.50 3.50 9.67E+04 19 1.00 1.00 1.57E-15 19 1.00 1.00 1.57E-15 20 1.00 1.00 1.57E-15 20 1.00 1.00 1.57E-15 21 1.70 1.70 1.33E+05 21 2.68 2.68 1.49E+04 22 1.93 1.93 1.66E+05 22 2.68 2.68 1.49E+04 23 2.17 2.17 1.13E+05 23 2.68 2.68 1.49E+04 24 2.18 2.18 3.66E+05 24 2.68 2.68 1.49E+04 25 2.89 2.89 5.73E+05 25 2.68 2.68 1.49E+04 26 5.17 5.17 1.21E+06 26 2.68 2.68 1.49E+04 TARGET PROBE DATA SHIFT: Target data is shifted in "distance along the target" space. A positive shift moves the data listed in the DIVIMP input file outward (generally in the direction of increasing major radius). The data for the inner and outer targets can be shifted independently, and the requested shifts are given below. INNER JET; OUTER C-MOD,DIII-D SHIFT (m) = 0.000 OUTER JET; INNER C-MOD,DIII-D SHIFT (m) = 0.000 ����� TARGET (R,Z) = 0.6183 -0.5029 RING Ne (m**3) Te (eV) TeCRIT(eV) Ti (eV) Vb Cs Isat 8 1.7867E+20 7.055 38.815 7.055 2.600E+04 2.600E+04 7.442E+05 9 6.6611E+19 8.860 25.802 8.860 2.913E+04 2.913E+04 3.109E+05 10 7.3698E+19 10.920 27.198 10.920 3.234E+04 3.234E+04 3.819E+05 11 4.9384E+19 9.520 21.915 9.520 3.020E+04 3.020E+04 2.389E+05 12 4.7895E+19 8.970 20.792 8.970 2.931E+04 2.931E+04 2.249E+05 13 4.9317E+19 8.460 20.242 8.460 2.847E+04 2.847E+04 2.249E+05 14 4.5143E+19 8.300 19.085 8.300 2.820E+04 2.820E+04 2.039E+05 15 3.9479E+19 8.170 17.854 8.170 2.798E+04 2.798E+04 1.769E+05 16 3.2643E+19 8.020 16.474 8.020 2.772E+04 2.772E+04 1.450E+05 17 2.4575E+19 7.850 14.788 7.850 2.742E+04 2.742E+04 1.080E+05 18 1.6955E+19 7.680 13.030 7.680 2.712E+04 2.712E+04 7.368E+04 19 1.001 1.000 0.000 1.000 9.787E+03 9.787E+03 1.570E-15 20 1.001 1.000 0.000 1.000 9.787E+03 9.787E+03 1.570E-15 21 6.5281E+19 1.697 10.046 1.697 1.275E+04 1.275E+04 1.334E+05 22 7.6269E+19 1.931 11.184 1.931 1.360E+04 1.360E+04 1.662E+05 23 4.9100E+19 2.165 9.823 2.165 1.440E+04 1.440E+04 1.133E+05 24 1.5771E+20 2.183 16.158 2.183 1.446E+04 1.446E+04 3.654E+05 25 2.1522E+20 2.885 20.152 2.885 1.662E+04 1.662E+04 5.732E+05 26 3.3839E+20 5.171 30.069 5.171 2.226E+04 2.226E+04 1.207E+06 ����� TARGET (R,Z) = 0.4700 -0.4522 RING Ne (m**3) Te (eV) TeCRIT(eV) Ti (eV) Vb Cs Isat 8 6.7682E+18 3.482 9.100 3.482 -1.826E+04 1.826E+04 -1.980E+04 9 1.0561E+19 4.261 10.669 4.261 -2.020E+04 2.020E+04 -3.419E+04 10 1.1399E+19 4.989 11.022 4.989 -2.186E+04 2.186E+04 -3.993E+04 11 1.4051E+19 5.110 11.704 5.110 -2.212E+04 2.212E+04 -4.981E+04 12 3.6668E+19 4.542 16.308 4.542 -2.512E+04 2.086E+04 -1.476E+05 13 3.6923E+19 4.113 15.608 4.113 -2.890E+04 1.985E+04 -1.710E+05 14 3.1160E+19 3.827 14.094 3.827 -2.769E+04 1.915E+04 -1.383E+05 15 2.4925E+19 3.544 12.569 3.544 -2.678E+04 1.842E+04 -1.069E+05 16 2.4952E+19 3.529 12.555 3.529 -2.595E+04 1.839E+04 -1.038E+05 17 2.5091E+19 3.512 12.695 3.512 -2.489E+04 1.834E+04 -1.001E+05 18 2.4536E+19 3.495 12.905 3.495 -2.458E+04 1.830E+04 -9.662E+04 19 1.001 1.000 0.000 1.000 -9.787E+03 9.787E+03 -1.570E-15 20 1.001 1.000 0.000 1.000 -9.787E+03 9.787E+03 -1.570E-15 21 5.8048E+18 2.678 4.181 2.678 -1.602E+04 1.602E+04 -1.490E+04 22 5.8048E+18 2.678 4.262 2.678 -1.602E+04 1.602E+04 -1.490E+04 23 5.8048E+18 2.678 4.363 2.678 -1.602E+04 1.602E+04 -1.490E+04 24 5.8048E+18 2.678 4.493 2.678 -1.602E+04 1.602E+04 -1.490E+04 25 5.8048E+18 2.678 4.680 2.678 -1.602E+04 1.602E+04 -1.490E+04 26 5.8048E+18 2.678 5.185 2.678 -1.602E+04 1.602E+04 -1.490E+04 SUMMARY OF TARGET HEAT FLUXES (W/M^2): ����� Target: ELEMENT ION ATOM MOLECULE TOTAL 1 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 2 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 3 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 4 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 5 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 6 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 7 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 8 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 9 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 10 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 11 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 12 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 13 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 14 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 15 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 16 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 17 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 18 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 19 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 TOT ����� 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 (W) ����� Target: ELEMENT ION ATOM MOLECULE TOTAL 20 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 21 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 22 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 23 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 24 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 25 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 26 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 27 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 28 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 29 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 30 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 31 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 32 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 33 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 34 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 35 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 36 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 37 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 38 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 TOT ����� 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 (W) GRAND TOT 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 (W) PRINT OPTION 10 : STANDARD PRINT OPTION + - DIVIMP BACKGROUND PLASMA FILE DIVIMP EXIT - SOL Option test ONLY - No particles launched TOTAL RANDOM NUMBERS USED 1 TIME SPENT IN PIN/NIMBUS(S) 1481 TIME FOLLOWING NEUTRALS (S) 0 TIME FOLLOWING IONS (S) 0 TOTAL CPU TIME USED (S) 2053