Los Alamos National Laboratory Poisson Superfish Program SFO written by James H. Billen and Lloyd M. Young The original Poisson Superfish codes were developed by Ron F. Holsinger in collaboration with Klaus Halbach. These programs are provided as a service to the accelerator community by the Los Alamos Accelerator Code Group (LAACG). (c) Copyright 1985-2005, by the Regents of the University of California. This software was produced under U. S. Government contract W-7405-ENG-36 by Los Alamos National Laboratory, which is operated by the University of California for the U. S. Department of Energy. Neither the Government nor the University makes any warranty, express or implied, or assumes any liability or responsibility for its use, or represents that use of this software would not infringe privately owned rights. Unpublished - rights reserved under Copyright Laws of the United States. Program SFO 7.17 released 1-13-2006 Solution file Z:\HOME\JCG\.WINE\SUPERFISH-EXAMPLES\FNAL-BUTTON-805.T35. Program file: C:\LANL\SFO.EXE SF.INI file: Z:\home\jcg\SF.INI 2-15-2008 9:33:32 Memory used for FNAL-BUTTON-805.T35 arrays: 799.344 K Problem description: 805 MHz Muon TM010 Pillbox Cavity with button In this problem, Kmax < Lmax Problem file: Z:\HOME\JCG\.WINE\SUPERFISH-EXAMPLES\FNAL-BUTTON-805.AF 3-29-2008 13:26:38 Problem file length: 959 bytes Originating program: Autofish Problem type: Unknown RF Cavity Coordinates and lengths have dimensions of centimeters. Problem constants and variables. Letter A in the code column indicates a value supplied in the Automesh input file. Letter S in the code column indicates a value supplied in the SFO input file. Variable Code Value Description ALPHAT 3.930000000E-03 Temperature coefficient of resistance BETA1 0.100000000 Starting BETA in transit-time table BETA2 0.950000000 Ending BETA in transit-time table CCLDELK 1.00000000 Increment for coupling for table in SFO CCLMAXK 6.00000000 Highest coupling for table in SFO CCLMINK 1.00000000 Lowest coupling for table in SFO CLENGTH 0.0 Cavity length for normalization in SFO CLIGHT 2.997924580E+10 Exact speed of light in cm/sec CONV 1.00000000 Length conversion (number of units per cm) DBETA 5.000000000E-02 BETA increment in transit-time table DELFR 0.0 Frequency step size for a resonance search DIAGDLL 0 If 1, DLL writes diagnostics to DiagDLL.txt DKSQ -1.833856011E-09 Change in k^2 after an iteration in Fish DPHI 180.000000 Phase length of the problem geometry DSLOPE -1.00477404 Slope of D(k^2) function DSTOLER 2.000000000E-02 Tolerance required on D(k^2) DX1 0.100000000 First X mesh interval (at XMIN) DXMIN 0.100000000 Minimum X mesh interval (found by Automesh) DYMIN 8.681666667E-02 Minimum Y mesh interval (found by Automesh) ENORM 1000000.00 Field normalization for NORM=4 option EPS0 8.854187818E-12 Permittivity of free space EPSIK 1.000000000E-04 Frequency convergence parameter EPSO 1.000000000E-05 Convergence parameter in mesh optimization ERG 621.588549 Integral (H^2 r dr dz) FMU0 1.256637061E-06 Permeability of free space FREQ 805.188686 RF cavity resonant frequency FREQD 0.0 Design frequency for a cavity (MHz) IBETA 0 If >0, SFO writes transit-time vs BETA ICCC 1 1 for real arrays, 2 for complex arrays ICCP 1 If 1, compute material power loss ICORNER1 0 First corner segment for computing average H ICORNER2 0 Last corner segment for computing average H ICYCLE 3 Present iteration number ICYLIN 1 0 for X,Y problems, 1 for Z,R problems IMAX 84 KMAX+2 INFODATA 0 Number of tuning-code parameters IOBSEG -1 First segment of the CCL outer boundary IPIVOT 1 Pivoting in matrix inversion routines IRESID 0 If 1, calculate potential residuals IRMAX 25 Used in optimization of RHOXY IRTYPE 0 Surface resistance option indicator ISLOT 0 If 1, SFO computes coupling-slot power loss ITFILE 0 If 1, SFO writes transit-time plot file ITOT 15372 (KMAX+2)*(LMAX+2) KDRI 42 K coordinate of the drive point KMAX 82 Number of horizontal logical mesh points KMETHOD 0 Wavenumber computation method (1= use beta) KPROB A 1 Problem type indicator (Superfish) LAST35 4 Code for last program to update T35 file LCYCLE 83 Iteration number in mesh optimization LDRI 180 L coordinate of the drive point LINT 1 Logical-mesh coordinate for Ez integration LMAX 181 Number of vertical logical mesh points MAXCY 19 Maximum number of cycles (-1: use default) MAXPPR 497 Maximum points per region METHOD 2 Method used to get frequency in root finder NAIR 12350 Number of air points NBND 72 Number of Dirichlet boundary points NBSLF 1 Left-side boundary condition NBSLO 0 Lower boundary condition NBSRT 1 Right-side boundary condition NBSUP 1 Upper boundary condition NDRI 15163 Drive point index = IRLAX(NPINP) NEGAT 0 Zero-area triangle indicator NFE 0 Number of iron points NHSTEM 1 Number of half stems NINTER 0 Number of interface points NMATR 0 Number of material records in T35 file NORM 0 Normalization method in SFO NPBOUND 496 Total number of boundary points in the mesh NPINP 12423 Total points in problem NPONTS 11927 Number of unknown relaxation points NREG 2 Number of regions NRMSEG 1 Normalization segment number for NORM=2 NSEG 13 Number of boundary segments NSPL 1 Number of special-potential points NSTEP 0 Number of steps for a resonance search OMEGAM 1.000000000E-03 Used in optimization of RHOXY PI 3.14159265 The number pi to machine precision PLCELL 360.000000 Phase length per cell for multicell problems Q2I 0.0 1/2Q passed from CFish to SFO RESIDR 1.000000000E-08 Residual resistance of a superconductor RESIK 6.439663443E-08 Residual = DKSQ/XKSQ RFMU 1.00000000 Permeability for rf surface resistance RHO 1.724100000E-06 Material resistivity (Ohm-m) RHOR 1.724100000E-06 Reference resistivity (Ohm-cm) at TEMPR RHOXY 1.60000000 Over-relaxation factor in mesh optimization RMASS -2.00000000 Rest mass energy of particle in SFO RSTEM 1.00000000 Stem radius in cm SLOSS 3.000000000E-02 Coupling-slot power factor per % coupling TC 9.20000000 Critical temperature of a superconductor TEMPC 20.0000000 Normal conductor operating temperature TEMPK 2.00000000 Operating temperature of a superconductor TEMPR 20.0000000 Reference temperature for IRTYPE=3 TRIAVG 4.336547029E-03 Average area of all triangles TRIMAX 7.323499085E-03 Area of the largest positive-area triangle TRIMIN 2.149393248E-03 Area of the smallest positive-area triangle VOLUME 4686.23028 Cavity volume (cylindrical symmetry only) XDRI A 1.155138617E-03 X coordinate of the drive point XK0 0.168755070 The wave number k = 2pif/c XKSQ 2.847827363E-02 Square of the wave number XMAXG 4.05000000 Upper X bound of the problem geometry XMING -4.05000000 Lower X bound of the problem geometry XNORM1 0.0 Starting X for NORM=4 integration path XNORM2 0.0 Ending X for NORM=4 integration path XYAREA 105.590584 Total cross sectional area YDRI A 15.5407414 Y coordinate of the drive point YMAXG 15.6270000 Upper Y bound of the problem geometry YMING 0.0 Lower Y bound of the problem geometry YNORM1 0.0 Starting Y for NORM=4 integration path YNORM2 0.0 Ending Y for NORM=4 integration path ZCTR 0.0 Reference Z in transit-time integrals ------------------------------------------------------------------------------- Segment numbers for field calculations [Note: negative values indicate stem segments.] 2 3 4 5 6 7 8 9 10 12 -11 ------------------------------------------------------------------------------- No materials other than air or empty space. ------------------------------------------------------------------------------- The field normalization factor ASCALE for this problem is based upon the calculated cavity length ZLONG = 7.12002000. Transit-time factor integrals and partial derivatives with repect to k TT = (1/V0)Int{Ez(z) cos k(z-Zc) dz} - tan(phi)(1/V0)Int{Ez(z) sin k(z-Zc) dz} TT = T - tan(phi) S T' and S' are partial derivative with respect to k. T" and S" are second partial derivatives. For symmetric half cells (Zs = Zc), the computations are done using integration limits Zs to Ze, but reported results correspond to a lower limit of integration equal to -Ze. Integrals along logical row L = 1 [R = 0.0 cm] between logical coordinates K = 1 and 71 Integration lower limit: Zs = -4.0500000 cm Integration upper limit: Ze = 3.0700200 cm Center of gap: Zc = 0.0000000 cm Electrical center: Zec = -0.0830300 cm Frequency for T integrals = 805.1886860 MHz Wave number: k = 2pif/c = 0.1687551 radians/cm Particle velocity: beta = 0.3824619 Structure wave number: k/beta = 0.4412337 radians/cm V0 = Int{Ez(z) dz} = 7.12002E+04 V E0 = (1/L)*Int{Ez(z) dz} = 1.00000E+06 V/m Treating the problem geometry as a single full cell: Transit-time factor = 0.601038 (when Zc = Zec) T = 0.600634 S = -2.201446E-02 T' = 0.109737 S' = 7.716821E-03 T" = 7.148493E-03 S" = -4.059548E-03 ------------------------------------------------------------------------------- Electric field along R = 0.000000 for normalization ASCALE = 5830.185559: Z(cm) Ez(V/m) -4.05000 8.786126E+05 -3.98979 8.786193E+05 -3.94972 8.786319E+05 -3.89565 8.786552E+05 -3.84944 8.786859E+05 -3.79696 8.787264E+05 -3.74915 8.787718E+05 -3.69733 8.788294E+05 -3.64887 8.788910E+05 -3.59740 8.789654E+05 -3.54859 8.790436E+05 -3.49734 8.791348E+05 -3.44831 8.792296E+05 -3.39721 8.793373E+05 -3.34803 8.794484E+05 -3.29704 8.795725E+05 -3.24774 8.796998E+05 -3.19683 8.798399E+05 -3.14746 8.799831E+05 -3.09661 8.801391E+05 -3.04718 8.802978E+05 -2.99638 8.804694E+05 -2.94690 8.806435E+05 -2.89614 8.808304E+05 -2.84662 8.810196E+05 -2.79589 8.812215E+05 -2.74633 8.814255E+05 -2.69563 8.816421E+05 -2.64605 8.818606E+05 -2.59537 8.820918E+05 -2.54577 8.823246E+05 -2.49511 8.825700E+05 -2.44549 8.828169E+05 -2.39484 8.830764E+05 -2.34521 8.833372E+05 -2.29458 8.836105E+05 -2.24492 8.838852E+05 -2.19431 8.841723E+05 -2.14464 8.844607E+05 -2.09403 8.847615E+05 -2.04436 8.850637E+05 -1.99376 8.853782E+05 -1.94408 8.856943E+05 -1.89349 8.860226E+05 -1.84380 8.863528E+05 -1.79321 8.866953E+05 -1.74351 8.870398E+05 -1.69294 8.873967E+05 -1.64323 8.877561E+05 -1.59266 8.881280E+05 -1.54295 8.885029E+05 -1.49238 8.888904E+05 -1.44267 8.892815E+05 -1.39211 8.896855E+05 -1.34239 8.900939E+05 -1.29183 8.905155E+05 -1.24210 8.909423E+05 -1.19155 8.913828E+05 -1.14182 8.918296E+05 -1.09127 8.922905E+05 -1.04154 8.927591E+05 -0.99100 8.932423E+05 -0.94126 8.937347E+05 -0.89072 8.942425E+05 -0.84098 8.947614E+05 -0.79044 8.952964E+05 -0.74069 8.958446E+05 -0.69016 8.964099E+05 -0.64041 8.969908E+05 -0.58988 8.975901E+05 -0.54013 8.982078E+05 -0.48960 8.988452E+05 -0.43985 8.995043E+05 -0.38932 9.001847E+05 -0.33957 9.008907E+05 -0.28904 9.016198E+05 -0.23929 9.023789E+05 -0.18876 9.031631E+05 -0.13900 9.039826E+05 -0.08848 9.048297E+05 -0.03872 9.057180E+05 0.01180 9.066367E+05 0.06156 9.076037E+05 0.11208 9.086042E+05 0.16184 9.096613E+05 0.21236 9.107555E+05 0.26212 9.119160E+05 0.31264 9.131177E+05 0.36241 9.143972E+05 0.41292 9.157227E+05 0.46269 9.171394E+05 0.51320 9.186075E+05 0.56297 9.201830E+05 0.61348 9.218160E+05 0.66325 9.235758E+05 0.71376 9.254000E+05 0.76353 9.273742E+05 0.81404 9.294207E+05 0.86382 9.316454E+05 0.91433 9.339514E+05 0.96410 9.364697E+05 1.01461 9.390796E+05 1.06438 9.419437E+05 1.11490 9.449110E+05 1.16466 9.481843E+05 1.21518 9.515738E+05 1.26494 9.553337E+05 1.31547 9.592246E+05 1.36523 9.635667E+05 1.41576 9.680563E+05 1.46551 9.730994E+05 1.51605 9.783082E+05 1.56579 9.842015E+05 1.61634 9.902804E+05 1.66607 9.972133E+05 1.71664 1.004353E+06 1.76635 1.012569E+06 1.81695 1.021013E+06 1.86664 1.030828E+06 1.91726 1.040892E+06 1.96692 1.052728E+06 2.01760 1.064827E+06 2.06720 1.079249E+06 2.11795 1.093939E+06 2.16748 1.111732E+06 2.21835 1.129775E+06 2.26776 1.152056E+06 2.31880 1.174522E+06 2.36805 1.202953E+06 2.41938 1.231406E+06 2.46833 1.268595E+06 2.52017 1.305440E+06 2.56861 1.355860E+06 2.62139 1.405073E+06 2.66889 1.477584E+06 2.72360 1.546519E+06 2.76917 1.663930E+06 2.82841 1.767046E+06 2.86946 2.005847E+06 2.94173 2.202889E+06 2.96974 2.303570E+06 3.07002 2.947368E+06 Total cavity stored energy (from program Fish): 5.8771444E-03 Joules ------------------------------------------------------------------------------- Power and fields on wall segment 2. K,L = 1,93 to 2,93 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 1 93 -4.05000 8.00000 1.0401E+03 7.9837E+03 -3.96450 8.00000 1.0411E+03 5.6547E+04 2 2 93 -3.87900 8.00000 1.0444E+03 1.1281E+05 Summary for the above wall segment: Emax = 1.1281E+05 V/m Hmax = 1.0444E+03 A/m Surface Area = 8.5954E+00 cm^2 Power = 3.4524E+00 W Maximum P/A = 4.0374E-01 W/cm^2 Average P/A = 4.0166E-01 W/cm^2 df/dr = -3.9375E-02 MHz/mm (for volume added to the cavity) df/f = -4.8902E-05 ------------------------------------------------------------------------------- Power and fields on wall segment 3. K,L = 2,93 to 14,106 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 2 93 -3.87900 8.00000 1.0444E+03 1.1281E+05 -3.83072 8.00204 1.0470E+03 1.4806E+05 2 3 93 -3.78245 8.00409 1.0503E+03 1.8192E+05 -3.73462 8.01018 1.0541E+03 2.2021E+05 3 4 93 -3.68680 8.01628 1.0584E+03 2.5292E+05 -3.63987 8.02632 1.0634E+03 2.9534E+05 4 5 93 -3.59294 8.03637 1.0689E+03 3.4775E+05 -3.54732 8.05022 1.0748E+03 3.7975E+05 5 6 94 -3.50169 8.06407 1.0813E+03 4.1234E+05 -3.45773 8.08152 1.0880E+03 4.4588E+05 6 7 94 -3.41377 8.09897 1.0955E+03 4.7979E+05 -3.37179 8.11977 1.1036E+03 5.1582E+05 7 8 94 -3.32981 8.14058 1.1123E+03 5.6677E+05 -3.29008 8.16449 1.1210E+03 5.9283E+05 8 8 95 -3.25036 8.18840 1.1302E+03 6.2988E+05 -3.21310 8.21514 1.1397E+03 6.5496E+05 9 9 96 -3.17584 8.24188 1.1497E+03 6.8082E+05 -3.14123 8.27117 1.1597E+03 7.0844E+05 10 10 96 -3.10661 8.30047 1.1708E+03 7.4219E+05 -3.07477 8.33204 1.1814E+03 7.6266E+05 11 10 97 -3.04293 8.36362 1.1926E+03 7.9048E+05 -3.01396 8.39722 1.2037E+03 8.0794E+05 12 11 98 -2.98499 8.43082 1.2151E+03 8.2615E+05 -2.95897 8.46619 1.2264E+03 8.4649E+05 13 12 98 -2.93295 8.50156 1.2388E+03 8.5860E+05 -2.90993 8.53847 1.2502E+03 8.7120E+05 14 12 99 -2.88691 8.57537 1.2624E+03 8.8735E+05 -2.86692 8.61359 1.2740E+03 8.9655E+05 15 13 100 -2.84693 8.65180 1.2863E+03 9.0679E+05 -2.82999 8.69112 1.2979E+03 9.1227E+05 16 13 101 -2.81306 8.73043 1.3100E+03 9.1660E+05 -2.79919 8.77064 1.3215E+03 9.1819E+05 17 14 102 -2.78533 8.81084 1.3335E+03 9.1806E+05 -2.77454 8.85176 1.3450E+03 9.2351E+05 18 13 103 -2.76375 8.89267 1.3562E+03 9.1606E+05 -2.75604 8.93411 1.3671E+03 9.1101E+05 19 14 104 -2.74833 8.97554 1.3780E+03 8.9648E+05 -2.74371 9.01732 1.3883E+03 8.8700E+05 20 14 105 -2.73908 9.05910 1.3986E+03 8.5975E+05 -2.73754 9.10105 1.4084E+03 8.4158E+05 21 14 106 -2.73600 9.14300 1.4176E+03 8.2446E+05 Summary for the above wall segment: Emax = 9.2351E+05 V/m Hmax = 1.4176E+03 A/m Surface Area = 9.4913E+01 cm^2 Power = 5.1498E+01 W Maximum P/A = 7.4383E-01 W/cm^2 Average P/A = 5.4258E-01 W/cm^2 df/dz = 8.2887E-01 MHz/mm (for volume added to the cavity) df/f = 1.0294E-03 df/dr = 3.7461E-01 MHz/mm (for volume added to the cavity) df/f = 4.6525E-04 ------------------------------------------------------------------------------- Power and fields on wall segment 4. K,L = 14,106 to 14,166 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 14 106 -2.73600 9.14300 1.4176E+03 8.2446E+05 -2.73600 9.18645 1.4267E+03 8.0734E+05 2 14 107 -2.73600 9.22990 1.4352E+03 7.8137E+05 -2.73600 9.27335 1.4438E+03 7.5522E+05 3 14 108 -2.73600 9.31680 1.4516E+03 7.4229E+05 -2.73600 9.36025 1.4591E+03 7.2929E+05 4 14 109 -2.73600 9.40370 1.4663E+03 7.1439E+05 -2.73600 9.44715 1.4732E+03 7.0211E+05 5 14 110 -2.73600 9.49060 1.4800E+03 6.9280E+05 -2.73600 9.53405 1.4867E+03 6.8345E+05 6 14 111 -2.73600 9.57750 1.4930E+03 6.7402E+05 -2.73600 9.62095 1.4993E+03 6.6511E+05 7 14 112 -2.73600 9.66440 1.5054E+03 6.5751E+05 -2.73600 9.70785 1.5113E+03 6.4989E+05 8 14 113 -2.73600 9.75130 1.5171E+03 6.4236E+05 -2.73600 9.79475 1.5228E+03 6.3501E+05 9 14 114 -2.73600 9.83820 1.5283E+03 6.2838E+05 -2.73600 9.88165 1.5337E+03 6.2172E+05 10 14 115 -2.73600 9.92510 1.5390E+03 6.1517E+05 -2.73600 9.96855 1.5442E+03 6.0869E+05 11 14 116 -2.73600 10.0120 1.5492E+03 6.0265E+05 -2.73600 10.0555 1.5542E+03 5.9659E+05 12 14 117 -2.73600 10.0989 1.5590E+03 5.9061E+05 -2.73600 10.1424 1.5637E+03 5.8467E+05 13 14 118 -2.73600 10.1858 1.5684E+03 5.7901E+05 -2.73600 10.2293 1.5729E+03 5.7334E+05 14 14 119 -2.73600 10.2727 1.5773E+03 5.6774E+05 -2.73600 10.3162 1.5816E+03 5.6215E+05 15 14 120 -2.73600 10.3596 1.5859E+03 5.5675E+05 -2.73600 10.4031 1.5900E+03 5.5134E+05 16 14 121 -2.73600 10.4465 1.5941E+03 5.4599E+05 -2.73600 10.4900 1.5980E+03 5.4063E+05 17 14 122 -2.73600 10.5334 1.6019E+03 5.3542E+05 -2.73600 10.5769 1.6056E+03 5.3019E+05 18 14 123 -2.73600 10.6203 1.6093E+03 5.2501E+05 -2.73600 10.6638 1.6129E+03 5.1983E+05 19 14 124 -2.73600 10.7072 1.6164E+03 5.1474E+05 -2.73600 10.7507 1.6198E+03 5.0964E+05 20 14 125 -2.73600 10.7941 1.6231E+03 5.0458E+05 -2.73600 10.8376 1.6264E+03 4.9951E+05 21 14 126 -2.73600 10.8810 1.6295E+03 4.9452E+05 -2.73600 10.9245 1.6326E+03 4.8951E+05 22 14 127 -2.73600 10.9679 1.6356E+03 4.8453E+05 -2.73600 11.0114 1.6385E+03 4.7955E+05 23 14 128 -2.73600 11.0548 1.6413E+03 4.7462E+05 -2.73600 11.0983 1.6441E+03 4.6968E+05 24 14 129 -2.73600 11.1417 1.6467E+03 4.6476E+05 -2.73600 11.1852 1.6493E+03 4.5984E+05 25 14 130 -2.73600 11.2286 1.6518E+03 4.5496E+05 -2.73600 11.2721 1.6542E+03 4.5006E+05 26 14 131 -2.73600 11.3155 1.6566E+03 4.4519E+05 -2.73600 11.3590 1.6589E+03 4.4031E+05 27 14 132 -2.73600 11.4024 1.6610E+03 4.3546E+05 -2.73600 11.4458 1.6631E+03 4.3060E+05 28 14 133 -2.73600 11.4893 1.6652E+03 4.2575E+05 -2.73600 11.5328 1.6671E+03 4.2090E+05 29 14 134 -2.73600 11.5762 1.6690E+03 4.1607E+05 -2.73600 11.6196 1.6708E+03 4.1124E+05 30 14 135 -2.73600 11.6631 1.6725E+03 4.0642E+05 -2.73600 11.7066 1.6741E+03 4.0159E+05 31 14 136 -2.73600 11.7500 1.6757E+03 3.9678E+05 -2.73600 11.7934 1.6772E+03 3.9195E+05 32 14 137 -2.73600 11.8369 1.6786E+03 3.8715E+05 -2.73600 11.8803 1.6799E+03 3.8233E+05 33 14 138 -2.73600 11.9238 1.6812E+03 3.7753E+05 -2.73600 11.9672 1.6824E+03 3.7272E+05 34 14 139 -2.73600 12.0107 1.6835E+03 3.6793E+05 -2.73600 12.0541 1.6845E+03 3.6312E+05 35 14 140 -2.73600 12.0976 1.6855E+03 3.5833E+05 -2.73600 12.1410 1.6864E+03 3.5353E+05 36 14 141 -2.73600 12.1845 1.6872E+03 3.4873E+05 -2.73600 12.2279 1.6879E+03 3.4394E+05 37 14 142 -2.73600 12.2714 1.6886E+03 3.3915E+05 -2.73600 12.3148 1.6892E+03 3.3435E+05 38 14 143 -2.73600 12.3583 1.6897E+03 3.2956E+05 -2.73600 12.4017 1.6901E+03 3.2477E+05 39 14 144 -2.73600 12.4452 1.6905E+03 3.1998E+05 -2.73600 12.4886 1.6908E+03 3.1518E+05 40 14 145 -2.73600 12.5321 1.6910E+03 3.1039E+05 -2.73600 12.5755 1.6911E+03 3.0560E+05 41 14 146 -2.73600 12.6190 1.6912E+03 3.0081E+05 -2.73600 12.6624 1.6912E+03 2.9601E+05 42 14 147 -2.73600 12.7059 1.6911E+03 2.9123E+05 -2.73600 12.7493 1.6909E+03 2.8643E+05 43 14 148 -2.73600 12.7928 1.6907E+03 2.8164E+05 -2.73600 12.8362 1.6904E+03 2.7684E+05 44 14 149 -2.73600 12.8797 1.6900E+03 2.7204E+05 -2.73600 12.9231 1.6896E+03 2.6725E+05 45 14 150 -2.73600 12.9666 1.6891E+03 2.6245E+05 -2.73600 13.0100 1.6885E+03 2.5764E+05 46 14 151 -2.73600 13.0535 1.6878E+03 2.5284E+05 -2.73600 13.0969 1.6871E+03 2.4803E+05 47 14 152 -2.73600 13.1404 1.6863E+03 2.4322E+05 -2.73600 13.1838 1.6854E+03 2.3841E+05 48 14 153 -2.73600 13.2273 1.6845E+03 2.3359E+05 -2.73600 13.2707 1.6834E+03 2.2877E+05 49 14 154 -2.73600 13.3142 1.6824E+03 2.2394E+05 -2.73600 13.3576 1.6812E+03 2.1911E+05 50 14 155 -2.73600 13.4011 1.6799E+03 2.1427E+05 -2.73600 13.4445 1.6786E+03 2.0942E+05 51 14 156 -2.73600 13.4880 1.6772E+03 2.0457E+05 -2.73600 13.5314 1.6758E+03 1.9971E+05 52 14 157 -2.73600 13.5749 1.6743E+03 1.9483E+05 -2.73600 13.6183 1.6727E+03 1.8994E+05 53 14 158 -2.73600 13.6618 1.6710E+03 1.8505E+05 -2.73600 13.7052 1.6692E+03 1.8015E+05 54 14 159 -2.73600 13.7487 1.6674E+03 1.7520E+05 -2.73600 13.7921 1.6655E+03 1.7023E+05 55 14 160 -2.73600 13.8356 1.6635E+03 1.6526E+05 -2.73600 13.8790 1.6615E+03 1.6029E+05 56 14 161 -2.73600 13.9225 1.6594E+03 1.5521E+05 -2.73600 13.9659 1.6572E+03 1.5010E+05 57 14 162 -2.73600 14.0094 1.6549E+03 1.4499E+05 -2.73600 14.0528 1.6526E+03 1.3987E+05 58 14 163 -2.73600 14.0963 1.6501E+03 1.3452E+05 -2.73600 14.1397 1.6476E+03 1.2895E+05 59 14 164 -2.73600 14.1832 1.6450E+03 1.2353E+05 -2.73600 14.2266 1.6424E+03 1.1810E+05 60 14 165 -2.73600 14.2701 1.6396E+03 1.1178E+05 -2.73600 14.3135 1.6367E+03 1.0556E+05 61 14 166 -2.73600 14.3570 1.6338E+03 9.9978E+04 Summary for the above wall segment: Emax = 8.2446E+05 V/m Hmax = 1.6912E+03 A/m Surface Area = 3.8494E+02 cm^2 Power = 3.8172E+02 W Maximum P/A = 1.0587E+00 W/cm^2 Average P/A = 9.9166E-01 W/cm^2 df/dz = -2.3639E+00 MHz/mm (for volume added to the cavity) df/f = -2.9359E-03 ------------------------------------------------------------------------------- Power and fields on wall segment 5. K,L = 14,166 to 27,181 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 14 166 -2.73600 14.3570 1.6338E+03 9.9978E+04 -2.73470 14.3975 1.6309E+03 9.4815E+04 2 14 167 -2.73341 14.4381 1.6280E+03 8.9610E+04 -2.72952 14.4785 1.6250E+03 8.4734E+04 3 14 168 -2.72564 14.5189 1.6220E+03 8.0694E+04 -2.71916 14.5591 1.6190E+03 7.6823E+04 4 14 169 -2.71269 14.5992 1.6159E+03 7.3475E+04 -2.70362 14.6390 1.6128E+03 7.0169E+04 5 15 170 -2.69456 14.6788 1.6097E+03 6.7578E+04 -2.68290 14.7181 1.6066E+03 6.4734E+04 6 14 171 -2.67125 14.7573 1.6034E+03 6.2014E+04 -2.65701 14.7960 1.6004E+03 5.9480E+04 7 15 172 -2.64278 14.8346 1.5973E+03 5.7247E+04 -2.62597 14.8724 1.5943E+03 5.4972E+04 8 15 173 -2.60915 14.9103 1.5912E+03 5.3071E+04 -2.58978 14.9472 1.5883E+03 5.0926E+04 9 16 174 -2.57040 14.9841 1.5853E+03 4.9058E+04 -2.54847 15.0199 1.5824E+03 4.7072E+04 10 16 175 -2.52654 15.0557 1.5795E+03 4.5312E+04 -2.50209 15.0902 1.5767E+03 4.3549E+04 11 17 176 -2.47764 15.1248 1.5740E+03 4.1936E+04 -2.45070 15.1579 1.5713E+03 4.0248E+04 12 17 177 -2.42375 15.1910 1.5686E+03 3.8612E+04 -2.39437 15.2226 1.5661E+03 3.7110E+04 13 18 177 -2.36498 15.2541 1.5636E+03 3.5591E+04 -2.33321 15.2838 1.5612E+03 3.4066E+04 14 19 178 -2.30144 15.3135 1.5588E+03 3.2461E+04 -2.26737 15.3413 1.5566E+03 3.1040E+04 15 19 179 -2.23330 15.3690 1.5544E+03 2.9666E+04 -2.19703 15.3946 1.5524E+03 2.8405E+04 16 20 179 -2.16076 15.4201 1.5504E+03 2.7192E+04 -2.12243 15.4433 1.5486E+03 2.5937E+04 17 21 180 -2.08409 15.4664 1.5468E+03 2.4719E+04 -2.04385 15.4870 1.5452E+03 2.3587E+04 18 22 180 -2.00360 15.5076 1.5437E+03 2.2483E+04 -1.96164 15.5254 1.5423E+03 2.1054E+04 19 23 180 -1.91967 15.5432 1.5410E+03 1.9737E+04 -1.87621 15.5580 1.5399E+03 1.8695E+04 20 23 181 -1.83275 15.5729 1.5388E+03 1.7682E+04 -1.78804 15.5846 1.5380E+03 1.6735E+04 21 24 181 -1.74333 15.5964 1.5372E+03 1.5806E+04 -1.69766 15.6048 1.5367E+03 1.4862E+04 22 25 181 -1.65198 15.6133 1.5361E+03 1.4066E+04 -1.60565 15.6184 1.5359E+03 1.3195E+04 23 26 181 -1.55933 15.6236 1.5357E+03 1.2470E+04 -1.51266 15.6253 1.5357E+03 1.1796E+04 24 27 181 -1.46600 15.6270 1.5358E+03 1.1205E+04 Summary for the above wall segment: Emax = 9.9978E+04 V/m Hmax = 1.6309E+03 A/m Surface Area = 1.9005E+02 cm^2 Power = 1.7350E+02 W Maximum P/A = 9.8457E-01 W/cm^2 Average P/A = 9.1293E-01 W/cm^2 df/dz = -1.2811E+00 MHz/mm (for volume added to the cavity) df/f = -1.5911E-03 df/dr = -1.2724E+00 MHz/mm (for volume added to the cavity) df/f = -1.5802E-03 ------------------------------------------------------------------------------- Power and fields on wall segment 6. K,L = 27,181 to 56,181 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 27 181 -1.46600 15.6270 1.5358E+03 1.1205E+04 -1.41545 15.6270 1.5361E+03 1.0671E+04 2 28 181 -1.36490 15.6270 1.5363E+03 1.0140E+04 -1.31434 15.6270 1.5365E+03 9.7008E+03 3 29 181 -1.26379 15.6270 1.5367E+03 9.2351E+03 -1.21324 15.6270 1.5369E+03 8.7853E+03 4 30 181 -1.16269 15.6270 1.5371E+03 8.3382E+03 -1.11214 15.6270 1.5373E+03 7.9060E+03 5 31 181 -1.06159 15.6270 1.5375E+03 7.4777E+03 -1.01103 15.6270 1.5376E+03 7.0649E+03 6 32 181 -0.960483 15.6270 1.5378E+03 6.6556E+03 -0.909931 15.6270 1.5379E+03 6.2608E+03 7 33 181 -0.859379 15.6270 1.5381E+03 5.8692E+03 -0.808828 15.6270 1.5382E+03 5.4901E+03 8 34 181 -0.758276 15.6270 1.5383E+03 5.1141E+03 -0.707724 15.6270 1.5384E+03 4.7485E+03 9 35 181 -0.657172 15.6270 1.5385E+03 4.3858E+03 -0.606621 15.6270 1.5386E+03 4.0316E+03 10 36 181 -0.556069 15.6270 1.5387E+03 3.6802E+03 -0.505517 15.6270 1.5388E+03 3.3354E+03 11 37 181 -0.454966 15.6270 1.5389E+03 2.9932E+03 -0.404414 15.6270 1.5389E+03 2.6557E+03 12 38 181 -0.353862 15.6270 1.5390E+03 2.3209E+03 -0.303310 15.6270 1.5390E+03 1.9891E+03 13 39 181 -0.252759 15.6270 1.5391E+03 1.6599E+03 -0.202207 15.6270 1.5391E+03 1.3319E+03 14 40 181 -0.151655 15.6270 1.5391E+03 1.0065E+03 -0.101103 15.6270 1.5392E+03 6.8120E+02 15 41 181 -5.055172E-02 15.6270 1.5392E+03 3.5829E+02 0.00000 15.6270 1.5392E+03 3.3658E+01 16 42 181 5.055172E-02 15.6270 1.5392E+03 2.8844E+02 0.101103 15.6270 1.5392E+03 6.1402E+02 17 43 181 0.151655 15.6270 1.5392E+03 9.3709E+02 0.202207 15.6270 1.5391E+03 1.2651E+03 18 44 181 0.252759 15.6270 1.5391E+03 1.5909E+03 0.303310 15.6270 1.5391E+03 1.9230E+03 19 45 181 0.353862 15.6270 1.5390E+03 2.2527E+03 0.404414 15.6270 1.5390E+03 2.5906E+03 20 46 181 0.454966 15.6270 1.5389E+03 2.9261E+03 0.505517 15.6270 1.5388E+03 3.2715E+03 21 47 181 0.556069 15.6270 1.5387E+03 3.6145E+03 0.606621 15.6270 1.5387E+03 3.9693E+03 22 48 181 0.657172 15.6270 1.5386E+03 4.3218E+03 0.707724 15.6270 1.5385E+03 4.6880E+03 23 49 181 0.758276 15.6270 1.5384E+03 5.0519E+03 0.808828 15.6270 1.5382E+03 5.4317E+03 24 50 181 0.859379 15.6270 1.5381E+03 5.8094E+03 0.909931 15.6270 1.5380E+03 6.2050E+03 25 51 181 0.960483 15.6270 1.5378E+03 6.5985E+03 1.01103 15.6270 1.5377E+03 7.0121E+03 26 52 181 1.06159 15.6270 1.5375E+03 7.4237E+03 1.11214 15.6270 1.5373E+03 7.8570E+03 27 53 181 1.16269 15.6270 1.5372E+03 8.2882E+03 1.21324 15.6270 1.5370E+03 8.7414E+03 28 54 181 1.26379 15.6270 1.5368E+03 9.1925E+03 1.31434 15.6270 1.5365E+03 9.6655E+03 29 55 181 1.36490 15.6270 1.5363E+03 1.0140E+04 1.41545 15.6270 1.5361E+03 1.0649E+04 30 56 181 1.46600 15.6270 1.5358E+03 1.1193E+04 Summary for the above wall segment: Emax = 1.1205E+04 V/m Hmax = 1.5392E+03 A/m Surface Area = 2.8789E+02 cm^2 Power = 2.5210E+02 W Maximum P/A = 8.7692E-01 W/cm^2 Average P/A = 8.7569E-01 W/cm^2 df/dr = -2.9311E+00 MHz/mm (for volume added to the cavity) df/f = -3.6402E-03 ------------------------------------------------------------------------------- Power and fields on wall segment 7. K,L = 56,181 to 69,166 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 56 181 1.46600 15.6270 1.5358E+03 1.1193E+04 1.51478 15.6251 1.5358E+03 1.1828E+04 2 57 181 1.56356 15.6232 1.5357E+03 1.2468E+04 1.61195 15.6176 1.5360E+03 1.3259E+04 3 58 181 1.66035 15.6120 1.5362E+03 1.3997E+04 1.70800 15.6028 1.5368E+03 1.4990E+04 4 59 181 1.75565 15.5935 1.5374E+03 1.5898E+04 1.80220 15.5807 1.5383E+03 1.6867E+04 5 60 180 1.84875 15.5680 1.5392E+03 1.7865E+04 1.89389 15.5518 1.5404E+03 1.9237E+04 6 61 180 1.93903 15.5356 1.5416E+03 2.0320E+04 1.98247 15.5163 1.5431E+03 2.1775E+04 7 62 180 2.02591 15.4969 1.5445E+03 2.2909E+04 2.06742 15.4746 1.5462E+03 2.4131E+04 8 62 179 2.10892 15.4522 1.5480E+03 2.5390E+04 2.14828 15.4272 1.5499E+03 2.6646E+04 9 63 179 2.18763 15.4021 1.5519E+03 2.7915E+04 2.22468 15.3744 1.5541E+03 2.9304E+04 10 64 178 2.26172 15.3468 1.5562E+03 3.0740E+04 2.29631 15.3169 1.5586E+03 3.2377E+04 11 64 177 2.33090 15.2870 1.5610E+03 3.3922E+04 2.36294 15.2550 1.5636E+03 3.5487E+04 12 65 177 2.39497 15.2230 1.5661E+03 3.7007E+04 2.42436 15.1891 1.5688E+03 3.8671E+04 13 66 176 2.45376 15.1553 1.5716E+03 4.0389E+04 2.48045 15.1198 1.5744E+03 4.2030E+04 14 66 175 2.50715 15.0843 1.5773E+03 4.3825E+04 2.53109 15.0473 1.5803E+03 4.5617E+04 15 67 174 2.55504 15.0104 1.5832E+03 4.7641E+04 2.57621 14.9722 1.5863E+03 4.9547E+04 16 67 173 2.59738 14.9340 1.5894E+03 5.1737E+04 2.61575 14.8947 1.5925E+03 5.3666E+04 17 68 172 2.63412 14.8554 1.5957E+03 5.5988E+04 2.64968 14.8152 1.5989E+03 5.8266E+04 18 68 171 2.66523 14.7750 1.6021E+03 6.0859E+04 2.67797 14.7341 1.6054E+03 6.3651E+04 19 68 170 2.69070 14.6932 1.6086E+03 6.6507E+04 2.70061 14.6516 1.6119E+03 6.9209E+04 20 68 169 2.71052 14.6101 1.6151E+03 7.2602E+04 2.71760 14.5682 1.6183E+03 7.6077E+04 21 69 168 2.72467 14.5262 1.6215E+03 8.0056E+04 2.72892 14.4840 1.6247E+03 8.4216E+04 22 68 167 2.73317 14.4418 1.6278E+03 8.8421E+04 2.73458 14.3994 1.6309E+03 9.4683E+04 23 69 166 2.73600 14.3570 1.6338E+03 9.9966E+04 Summary for the above wall segment: Emax = 9.9966E+04 V/m Hmax = 1.6338E+03 A/m Surface Area = 1.9005E+02 cm^2 Power = 1.7351E+02 W Maximum P/A = 9.8808E-01 W/cm^2 Average P/A = 9.1300E-01 W/cm^2 df/dz = -1.2812E+00 MHz/mm (for volume added to the cavity) df/f = -1.5912E-03 df/dr = -1.2725E+00 MHz/mm (for volume added to the cavity) df/f = -1.5803E-03 ------------------------------------------------------------------------------- Power and fields on wall segment 8. K,L = 69,166 to 69,106 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 69 166 2.73600 14.3570 1.6338E+03 9.9966E+04 2.73600 14.3135 1.6368E+03 1.0636E+05 2 69 165 2.73600 14.2701 1.6397E+03 1.1198E+05 2.73600 14.2266 1.6425E+03 1.1759E+05 3 69 164 2.73600 14.1832 1.6451E+03 1.2320E+05 2.73600 14.1397 1.6477E+03 1.2917E+05 4 69 163 2.73600 14.0963 1.6502E+03 1.3441E+05 2.73600 14.0528 1.6527E+03 1.3964E+05 5 69 162 2.73600 14.0094 1.6550E+03 1.4486E+05 2.73600 13.9659 1.6573E+03 1.5009E+05 6 69 161 2.73600 13.9225 1.6595E+03 1.5512E+05 2.73600 13.8790 1.6616E+03 1.6015E+05 7 69 160 2.73600 13.8356 1.6636E+03 1.6517E+05 2.73600 13.7921 1.6656E+03 1.7017E+05 8 69 159 2.73600 13.7487 1.6675E+03 1.7510E+05 2.73600 13.7052 1.6693E+03 1.8003E+05 9 69 158 2.73600 13.6618 1.6711E+03 1.8495E+05 2.73600 13.6183 1.6728E+03 1.8985E+05 10 69 157 2.73600 13.5749 1.6744E+03 1.9473E+05 2.73600 13.5314 1.6759E+03 1.9960E+05 11 69 156 2.73600 13.4880 1.6774E+03 2.0446E+05 2.73600 13.4445 1.6787E+03 2.0931E+05 12 69 155 2.73600 13.4011 1.6801E+03 2.1415E+05 2.73600 13.3576 1.6813E+03 2.1899E+05 13 69 154 2.73600 13.3142 1.6825E+03 2.2382E+05 2.73600 13.2707 1.6836E+03 2.2864E+05 14 69 153 2.73600 13.2273 1.6846E+03 2.3346E+05 2.73600 13.1838 1.6856E+03 2.3827E+05 15 69 152 2.73600 13.1404 1.6864E+03 2.4308E+05 2.73600 13.0969 1.6872E+03 2.4789E+05 16 69 151 2.73600 13.0535 1.6880E+03 2.5269E+05 2.73600 13.0100 1.6886E+03 2.5749E+05 17 69 150 2.73600 12.9666 1.6892E+03 2.6229E+05 2.73600 12.9231 1.6898E+03 2.6708E+05 18 69 149 2.73600 12.8797 1.6902E+03 2.7188E+05 2.73600 12.8362 1.6906E+03 2.7667E+05 19 69 148 2.73600 12.7928 1.6909E+03 2.8146E+05 2.73600 12.7493 1.6911E+03 2.8625E+05 20 69 147 2.73600 12.7059 1.6913E+03 2.9104E+05 2.73600 12.6624 1.6913E+03 2.9583E+05 21 69 146 2.73600 12.6190 1.6914E+03 3.0061E+05 2.73600 12.5755 1.6913E+03 3.0540E+05 22 69 145 2.73600 12.5321 1.6912E+03 3.1019E+05 2.73600 12.4886 1.6909E+03 3.1497E+05 23 69 144 2.73600 12.4452 1.6907E+03 3.1975E+05 2.73600 12.4017 1.6903E+03 3.2454E+05 24 69 143 2.73600 12.3583 1.6899E+03 3.2933E+05 2.73600 12.3148 1.6894E+03 3.3412E+05 25 69 142 2.73600 12.2714 1.6888E+03 3.3889E+05 2.73600 12.2279 1.6881E+03 3.4369E+05 26 69 141 2.73600 12.1845 1.6874E+03 3.4848E+05 2.73600 12.1410 1.6866E+03 3.5327E+05 27 69 140 2.73600 12.0976 1.6857E+03 3.5805E+05 2.73600 12.0541 1.6848E+03 3.6284E+05 28 69 139 2.73600 12.0107 1.6837E+03 3.6764E+05 2.73600 11.9672 1.6826E+03 3.7243E+05 29 69 138 2.73600 11.9238 1.6815E+03 3.7722E+05 2.73600 11.8803 1.6802E+03 3.8203E+05 30 69 137 2.73600 11.8369 1.6789E+03 3.8683E+05 2.73600 11.7934 1.6775E+03 3.9163E+05 31 69 136 2.73600 11.7500 1.6760E+03 3.9642E+05 2.73600 11.7066 1.6744E+03 4.0125E+05 32 69 135 2.73600 11.6631 1.6728E+03 4.0607E+05 2.73600 11.6196 1.6711E+03 4.1088E+05 33 69 134 2.73600 11.5762 1.6693E+03 4.1568E+05 2.73600 11.5328 1.6675E+03 4.2053E+05 34 69 133 2.73600 11.4893 1.6655E+03 4.2536E+05 2.73600 11.4458 1.6635E+03 4.3019E+05 35 69 132 2.73600 11.4024 1.6614E+03 4.3501E+05 2.73600 11.3590 1.6592E+03 4.3989E+05 36 69 131 2.73600 11.3155 1.6570E+03 4.4476E+05 2.73600 11.2721 1.6546E+03 4.4961E+05 37 69 130 2.73600 11.2286 1.6522E+03 4.5446E+05 2.73600 11.1852 1.6497E+03 4.5938E+05 38 69 129 2.73600 11.1417 1.6472E+03 4.6428E+05 2.73600 11.0983 1.6445E+03 4.6917E+05 39 69 128 2.73600 11.0548 1.6418E+03 4.7406E+05 2.73600 11.0114 1.6390E+03 4.7904E+05 40 69 127 2.73600 10.9679 1.6361E+03 4.8400E+05 2.73600 10.9245 1.6331E+03 4.8894E+05 41 69 126 2.73600 10.8810 1.6300E+03 4.9388E+05 2.73600 10.8376 1.6269E+03 4.9895E+05 42 69 125 2.73600 10.7941 1.6237E+03 5.0398E+05 2.73600 10.7507 1.6203E+03 5.0900E+05 43 69 124 2.73600 10.7072 1.6169E+03 5.1401E+05 2.73600 10.6638 1.6135E+03 5.1921E+05 44 69 123 2.73600 10.6203 1.6099E+03 5.2435E+05 2.73600 10.5769 1.6062E+03 5.2947E+05 45 69 122 2.73600 10.5334 1.6025E+03 5.3459E+05 2.73600 10.4900 1.5986E+03 5.3995E+05 46 69 121 2.73600 10.4465 1.5947E+03 5.4525E+05 2.73600 10.4031 1.5907E+03 5.5052E+05 47 69 120 2.73600 10.3596 1.5866E+03 5.5578E+05 2.73600 10.3162 1.5824E+03 5.6140E+05 48 69 119 2.73600 10.2727 1.5780E+03 5.6691E+05 2.73600 10.2293 1.5736E+03 5.7240E+05 49 69 118 2.73600 10.1858 1.5691E+03 5.7787E+05 2.73600 10.1424 1.5645E+03 5.8387E+05 50 69 117 2.73600 10.0989 1.5598E+03 5.8969E+05 2.73600 10.0555 1.5550E+03 5.9549E+05 51 69 116 2.73600 10.0120 1.5501E+03 6.0128E+05 2.73600 9.96855 1.5451E+03 6.0784E+05 52 69 115 2.73600 9.92510 1.5399E+03 6.1414E+05 2.73600 9.88165 1.5346E+03 6.2042E+05 53 69 114 2.73600 9.83820 1.5292E+03 6.2667E+05 2.73600 9.79475 1.5238E+03 6.3417E+05 54 69 113 2.73600 9.75130 1.5181E+03 6.4122E+05 2.73600 9.70785 1.5123E+03 6.4824E+05 55 69 112 2.73600 9.66440 1.5064E+03 6.5523E+05 2.73600 9.62095 1.5004E+03 6.6444E+05 56 69 111 2.73600 9.57750 1.4942E+03 6.7276E+05 2.73600 9.53405 1.4878E+03 6.8106E+05 57 69 110 2.73600 9.49060 1.4812E+03 6.8931E+05 2.73600 9.44715 1.4745E+03 7.0242E+05 58 69 109 2.73600 9.40370 1.4675E+03 7.1323E+05 2.73600 9.36025 1.4603E+03 7.2399E+05 59 69 108 2.73600 9.31680 1.4529E+03 7.3469E+05 2.73600 9.27335 1.4453E+03 7.5982E+05 60 69 107 2.73600 9.22990 1.4371E+03 7.7593E+05 2.73600 9.18645 1.4286E+03 7.9196E+05 61 69 106 2.73600 9.14300 1.4198E+03 8.0791E+05 Summary for the above wall segment: Emax = 8.0791E+05 V/m Hmax = 1.6914E+03 A/m Surface Area = 3.8494E+02 cm^2 Power = 3.8191E+02 W Maximum P/A = 1.0589E+00 W/cm^2 Average P/A = 9.9213E-01 W/cm^2 df/dz = -2.3713E+00 MHz/mm (for volume added to the cavity) df/f = -2.9450E-03 ------------------------------------------------------------------------------- Power and fields on wall segment 9. K,L = 69,106 to 80,93 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 69 106 2.73600 9.14300 1.4198E+03 8.0791E+05 2.73754 9.10105 1.4099E+03 8.3774E+05 2 68 105 2.73908 9.05910 1.4005E+03 8.5369E+05 2.74371 9.01732 1.3900E+03 8.8416E+05 3 69 104 2.74833 8.97554 1.3797E+03 8.9322E+05 2.75604 8.93411 1.3688E+03 9.0823E+05 4 69 103 2.76375 8.89267 1.3580E+03 9.1314E+05 2.77454 8.85176 1.3469E+03 9.2039E+05 5 69 102 2.78533 8.81084 1.3356E+03 9.2823E+05 2.79919 8.77064 1.3235E+03 9.1445E+05 6 69 101 2.81306 8.73043 1.3122E+03 9.1293E+05 2.82999 8.69112 1.3001E+03 9.0855E+05 7 70 100 2.84693 8.65180 1.2886E+03 9.0315E+05 2.86692 8.61359 1.2763E+03 8.9273E+05 8 70 99 2.88691 8.57537 1.2648E+03 8.8370E+05 2.90993 8.53847 1.2527E+03 8.6745E+05 9 71 98 2.93295 8.50156 1.2413E+03 8.5507E+05 2.95897 8.46619 1.2291E+03 8.4272E+05 10 72 98 2.98499 8.43082 1.2178E+03 8.2249E+05 3.01396 8.39722 1.2065E+03 8.0438E+05 11 72 97 3.04293 8.36362 1.1955E+03 7.8702E+05 3.07477 8.33204 1.1844E+03 7.5928E+05 12 73 96 3.10661 8.30047 1.1739E+03 7.3904E+05 3.14123 8.27117 1.1629E+03 7.0470E+05 13 74 96 3.17584 8.24188 1.1530E+03 6.7728E+05 3.21310 8.21514 1.1431E+03 6.5161E+05 14 74 95 3.25036 8.18840 1.1336E+03 6.2671E+05 3.29008 8.16449 1.1245E+03 5.8988E+05 15 75 94 3.32981 8.14058 1.1158E+03 5.6415E+05 3.37179 8.11977 1.1072E+03 5.1289E+05 16 76 94 3.41377 8.09897 1.0996E+03 4.8231E+05 3.45773 8.08152 1.0918E+03 4.4339E+05 17 77 94 3.50169 8.06407 1.0852E+03 4.1001E+05 3.54732 8.05022 1.0787E+03 3.7764E+05 18 77 93 3.59294 8.03637 1.0728E+03 3.4586E+05 3.63987 8.02632 1.0674E+03 2.9410E+05 19 78 93 3.68680 8.01628 1.0628E+03 2.6324E+05 3.73462 8.01018 1.0583E+03 2.1969E+05 20 79 93 3.78245 8.00409 1.0547E+03 1.8801E+05 3.83072 8.00204 1.0513E+03 1.4639E+05 21 80 93 3.87900 8.00000 1.0487E+03 1.1353E+05 Summary for the above wall segment: Emax = 9.2823E+05 V/m Hmax = 1.4099E+03 A/m Surface Area = 9.4913E+01 cm^2 Power = 5.1742E+01 W Maximum P/A = 7.3579E-01 W/cm^2 Average P/A = 5.4515E-01 W/cm^2 df/dz = 8.1718E-01 MHz/mm (for volume added to the cavity) df/f = 1.0149E-03 df/dr = 3.6601E-01 MHz/mm (for volume added to the cavity) df/f = 4.5456E-04 ------------------------------------------------------------------------------- Power and fields on wall segment 10. K,L = 80,93 to 82,93 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 80 93 3.87900 8.00000 1.0487E+03 1.1353E+05 3.92175 8.00000 1.0469E+03 8.2689E+04 2 81 93 3.96450 8.00000 1.0456E+03 5.5039E+04 4.00725 8.00000 1.0448E+03 2.5665E+04 3 82 93 4.05000 8.00000 1.0446E+03 0.0000E+00 Summary for the above wall segment: Emax = 1.1353E+05 V/m Hmax = 1.0469E+03 A/m Surface Area = 8.5954E+00 cm^2 Power = 3.4809E+00 W Maximum P/A = 4.0569E-01 W/cm^2 Average P/A = 4.0497E-01 W/cm^2 df/dr = -3.9600E-02 MHz/mm (for volume added to the cavity) df/f = -4.9181E-05 ------------------------------------------------------------------------------- Power and fields on wall segment 12. K,L = 82,16 to 72,1 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 82 16 4.05000 1.27000 5.0709E+02 3.3288E+05 4.00752 1.24654 5.1139E+02 3.8514E+05 2 81 15 3.96503 1.22309 5.1449E+02 4.3399E+05 3.92407 1.19767 5.1625E+02 5.1170E+05 3 80 15 3.88310 1.17226 5.1579E+02 6.1501E+05 3.84374 1.14500 5.1049E+02 7.5826E+05 4 80 14 3.80438 1.11774 5.0585E+02 8.3091E+05 3.76670 1.08875 5.0069E+02 9.0299E+05 5 79 14 3.72902 1.05975 4.9421E+02 9.7330E+05 3.69308 1.02914 4.8584E+02 1.0758E+06 6 78 13 3.65714 0.998527 4.7707E+02 1.1371E+06 3.62300 0.966401 4.6789E+02 1.2149E+06 7 78 12 3.58885 0.934275 4.5744E+02 1.2756E+06 3.55655 0.900746 4.4671E+02 1.3390E+06 8 77 12 3.52424 0.867216 4.3488E+02 1.4022E+06 3.49382 0.832388 4.2139E+02 1.4646E+06 9 76 11 3.46339 0.797560 4.0832E+02 1.5132E+06 3.43487 0.761537 3.9428E+02 1.5864E+06 10 76 10 3.40635 0.725513 3.7993E+02 1.6353E+06 3.37976 0.688392 3.6452E+02 1.7052E+06 11 75 9 3.35317 0.651271 3.4897E+02 1.7527E+06 3.32853 0.613149 3.3230E+02 1.8215E+06 12 75 8 3.30389 0.575027 3.1563E+02 1.8681E+06 3.28122 0.535997 2.9777E+02 1.9377E+06 13 74 7 3.25855 0.496966 2.8001E+02 1.9839E+06 3.23785 0.457115 2.6096E+02 2.0567E+06 14 74 6 3.21716 0.417265 2.4212E+02 2.1034E+06 3.19845 0.376681 2.2179E+02 2.1826E+06 15 73 5 3.17974 0.336097 2.0183E+02 2.2316E+06 3.16303 0.294863 1.7996E+02 2.3210E+06 16 73 4 3.14631 0.253628 1.5878E+02 2.3754E+06 3.13159 0.211824 1.3500E+02 2.4753E+06 17 72 3 3.11688 0.170019 1.1259E+02 2.5427E+06 3.10416 0.127722 7.7805E+01 2.6412E+06 18 72 2 3.09145 8.542568E-02 5.2119E+01 2.6669E+06 3.08073 4.271284E-02 2.7849E+01 2.8681E+06 19 72 1 3.07002 0.00000 0.0000E+00 2.9474E+06 Summary for the above wall segment: Emax = 2.9474E+06 V/m Hmax = 5.1625E+02 A/m Surface Area = 7.3511E+00 cm^2 Power = 5.2456E-01 W Maximum P/A = 9.8651E-02 W/cm^2 Average P/A = 7.1358E-02 W/cm^2 df/dz = 3.3777E-01 MHz/mm (for volume added to the cavity) df/f = 4.1949E-04 df/dr = 2.3394E-01 MHz/mm (for volume added to the cavity) df/f = 2.9054E-04 ------------------------------------------------------------------------------- Power and fields on stem segment 11. K,L = 82,93 to 82,16 This segment uses surface resistance option IRTYPE = 0 Surface resistance, Rs = 7.403037E-03 Ohm calculated from: Operating temperature, TEMPC = 20.000 C Reference resistivity, RHOR = 1.724100E-06 Ohm-cm Reference temperature, TEMPR = 20.000 C Temperature coefficient, ALPHAT = 3.930000E-03 /C Relative permeability, RFMU = 1.000 m K L Z R H |E| (cm) (cm) (A/m) (V/m) 1 82 93 4.05000 8.00000 1.0446E+03 0.0000E+00 4.05000 7.95630 1.0500E+03 2.6940E+04 2 82 92 4.05000 7.91260 1.0550E+03 5.5022E+04 4.05000 7.86890 1.0596E+03 7.8842E+04 3 82 91 4.05000 7.82519 1.0637E+03 1.0571E+05 4.05000 7.78149 1.0673E+03 1.3288E+05 4 82 90 4.05000 7.73779 1.0705E+03 1.6036E+05 4.05000 7.69409 1.0729E+03 1.7956E+05 5 82 89 4.05000 7.65039 1.0753E+03 2.0015E+05 4.05000 7.60669 1.0774E+03 2.2066E+05 6 82 88 4.05000 7.56299 1.0791E+03 2.4110E+05 4.05000 7.51929 1.0803E+03 2.5901E+05 7 82 87 4.05000 7.47558 1.0813E+03 2.7565E+05 4.05000 7.43188 1.0821E+03 2.9224E+05 8 82 86 4.05000 7.38818 1.0826E+03 3.0877E+05 4.05000 7.34448 1.0828E+03 3.2355E+05 9 82 85 4.05000 7.30078 1.0828E+03 3.3724E+05 4.05000 7.25708 1.0825E+03 3.5088E+05 10 82 84 4.05000 7.21338 1.0821E+03 3.6448E+05 4.05000 7.16968 1.0813E+03 3.7681E+05 11 82 83 4.05000 7.12597 1.0804E+03 3.8828E+05 4.05000 7.08227 1.0793E+03 3.9972E+05 12 82 82 4.05000 7.03857 1.0781E+03 4.1112E+05 4.05000 6.99487 1.0766E+03 4.2157E+05 13 82 81 4.05000 6.95117 1.0750E+03 4.3137E+05 4.05000 6.90747 1.0732E+03 4.4113E+05 14 82 80 4.05000 6.86377 1.0713E+03 4.5087E+05 4.05000 6.82006 1.0692E+03 4.5987E+05 15 82 79 4.05000 6.77636 1.0669E+03 4.6838E+05 4.05000 6.73266 1.0646E+03 4.7686E+05 16 82 78 4.05000 6.68896 1.0621E+03 4.8531E+05 4.05000 6.64526 1.0594E+03 4.9318E+05 17 82 77 4.05000 6.60156 1.0567E+03 5.0067E+05 4.05000 6.55786 1.0538E+03 5.0814E+05 18 82 76 4.05000 6.51416 1.0508E+03 5.1558E+05 4.05000 6.47045 1.0477E+03 5.2256E+05 19 82 75 4.05000 6.42675 1.0445E+03 5.2923E+05 4.05000 6.38305 1.0412E+03 5.3589E+05 20 82 74 4.05000 6.33935 1.0378E+03 5.4253E+05 4.05000 6.29565 1.0342E+03 5.4878E+05 21 82 73 4.05000 6.25195 1.0306E+03 5.5479E+05 4.05000 6.20825 1.0269E+03 5.6079E+05 22 82 72 4.05000 6.16455 1.0231E+03 5.6677E+05 4.05000 6.12084 1.0192E+03 5.7242E+05 23 82 71 4.05000 6.07714 1.0153E+03 5.7789E+05 4.05000 6.03344 1.0112E+03 5.8333E+05 24 82 70 4.05000 5.98974 1.0071E+03 5.8877E+05 4.05000 5.94604 1.0028E+03 5.9392E+05 25 82 69 4.05000 5.90234 9.9855E+02 5.9892E+05 4.05000 5.85864 9.9418E+02 6.0391E+05 26 82 68 4.05000 5.81494 9.8974E+02 6.0889E+05 4.05000 5.77123 9.8521E+02 6.1362E+05 27 82 67 4.05000 5.72753 9.8062E+02 6.1822E+05 4.05000 5.68383 9.7597E+02 6.2281E+05 28 82 66 4.05000 5.64013 9.7124E+02 6.2740E+05 4.05000 5.59643 9.6644E+02 6.3176E+05 29 82 65 4.05000 5.55273 9.6159E+02 6.3601E+05 4.05000 5.50903 9.5668E+02 6.4026E+05 30 82 64 4.05000 5.46532 9.5170E+02 6.4450E+05 4.05000 5.42162 9.4666E+02 6.4854E+05 31 82 63 4.05000 5.37792 9.4156E+02 6.5249E+05 4.05000 5.33422 9.3641E+02 6.5643E+05 32 82 62 4.05000 5.29052 9.3121E+02 6.6037E+05 4.05000 5.24682 9.2594E+02 6.6411E+05 33 82 61 4.05000 5.20312 9.2062E+02 6.6779E+05 4.05000 5.15942 9.1526E+02 6.7146E+05 34 82 60 4.05000 5.11571 9.0984E+02 6.7513E+05 4.05000 5.07201 9.0436E+02 6.7860E+05 35 82 59 4.05000 5.02831 8.9885E+02 6.8203E+05 4.05000 4.98461 8.9328E+02 6.8545E+05 36 82 58 4.05000 4.94091 8.8767E+02 6.8887E+05 4.05000 4.89721 8.8201E+02 6.9210E+05 37 82 57 4.05000 4.85351 8.7631E+02 6.9529E+05 4.05000 4.80981 8.7057E+02 6.9849E+05 38 82 56 4.05000 4.76610 8.6478E+02 7.0168E+05 4.05000 4.72240 8.5895E+02 7.0467E+05 39 82 55 4.05000 4.67870 8.5308E+02 7.0764E+05 4.05000 4.63500 8.4718E+02 7.1062E+05 40 82 54 4.05000 4.59130 8.4124E+02 7.1359E+05 4.05000 4.54760 8.3525E+02 7.1636E+05 41 82 53 4.05000 4.50390 8.2924E+02 7.1912E+05 4.05000 4.46019 8.2319E+02 7.2189E+05 42 82 52 4.05000 4.41649 8.1710E+02 7.2465E+05 4.05000 4.37279 8.1098E+02 7.2721E+05 43 82 51 4.05000 4.32909 8.0483E+02 7.2976E+05 4.05000 4.28539 7.9866E+02 7.3232E+05 44 82 50 4.05000 4.24169 7.9245E+02 7.3488E+05 4.05000 4.19799 7.8621E+02 7.3721E+05 45 82 49 4.05000 4.15429 7.7995E+02 7.3956E+05 4.05000 4.11058 7.7366E+02 7.4191E+05 46 82 48 4.05000 4.06688 7.6735E+02 7.4427E+05 4.05000 4.02318 7.6101E+02 7.4637E+05 47 82 47 4.05000 3.97948 7.5466E+02 7.4850E+05 4.05000 3.93578 7.4828E+02 7.5065E+05 48 82 46 4.05000 3.89208 7.4188E+02 7.5280E+05 4.05000 3.84838 7.3546E+02 7.5467E+05 49 82 45 4.05000 3.80468 7.2903E+02 7.5657E+05 4.05000 3.76097 7.2259E+02 7.5850E+05 50 82 44 4.05000 3.71727 7.1613E+02 7.6044E+05 4.05000 3.67357 7.0964E+02 7.6204E+05 51 82 43 4.05000 3.62987 7.0316E+02 7.6370E+05 4.05000 3.58617 6.9668E+02 7.6539E+05 52 82 42 4.05000 3.54247 6.9018E+02 7.6711E+05 4.05000 3.49877 6.8366E+02 7.6841E+05 53 82 41 4.05000 3.45506 6.7716E+02 7.6980E+05 4.05000 3.41136 6.7065E+02 7.7123E+05 54 82 40 4.05000 3.36766 6.6415E+02 7.7270E+05 4.05000 3.32396 6.5763E+02 7.7365E+05 55 82 39 4.05000 3.28026 6.5113E+02 7.7474E+05 4.05000 3.23656 6.4464E+02 7.7588E+05 56 82 38 4.05000 3.19286 6.3816E+02 7.7705E+05 4.05000 3.14916 6.3168E+02 7.7760E+05 57 82 37 4.05000 3.10545 6.2523E+02 7.7832E+05 4.05000 3.06175 6.1880E+02 7.7910E+05 58 82 36 4.05000 3.01805 6.1239E+02 7.7995E+05 4.05000 2.97435 6.0599E+02 7.7998E+05 59 82 35 4.05000 2.93065 5.9964E+02 7.8025E+05 4.05000 2.88695 5.9332E+02 7.8061E+05 60 82 34 4.05000 2.84325 5.8704E+02 7.8106E+05 4.05000 2.79955 5.8077E+02 7.8041E+05 61 82 33 4.05000 2.75584 5.7458E+02 7.8011E+05 4.05000 2.71214 5.6845E+02 7.7994E+05 62 82 32 4.05000 2.66844 5.6237E+02 7.7988E+05 4.05000 2.62474 5.5631E+02 7.7832E+05 63 82 31 4.05000 2.58104 5.5037E+02 7.7727E+05 4.05000 2.53734 5.4452E+02 7.7638E+05 64 82 30 4.05000 2.49364 5.3873E+02 7.7567E+05 4.05000 2.44994 5.3299E+02 7.7282E+05 65 82 29 4.05000 2.40623 5.2743E+02 7.7072E+05 4.05000 2.36253 5.2198E+02 7.6887E+05 66 82 28 4.05000 2.31883 5.1664E+02 7.6728E+05 4.05000 2.27513 5.1136E+02 7.6250E+05 67 82 27 4.05000 2.23143 5.0634E+02 7.5889E+05 4.05000 2.18773 5.0148E+02 7.5565E+05 68 82 26 4.05000 2.14403 4.9679E+02 7.5279E+05 4.05000 2.10032 4.9218E+02 7.4498E+05 69 82 25 4.05000 2.05662 4.8796E+02 7.3908E+05 4.05000 2.01292 4.8398E+02 7.3374E+05 70 82 24 4.05000 1.96922 4.8025E+02 7.2898E+05 4.05000 1.92552 4.7664E+02 7.1600E+05 71 82 23 4.05000 1.88182 4.7363E+02 7.0638E+05 4.05000 1.83812 4.7099E+02 6.9764E+05 72 82 22 4.05000 1.79442 4.6871E+02 6.8986E+05 4.05000 1.75071 4.6662E+02 6.6705E+05 73 82 21 4.05000 1.70701 4.6550E+02 6.5086E+05 4.05000 1.66331 4.6497E+02 6.3618E+05 74 82 20 4.05000 1.61961 4.6503E+02 6.2313E+05 4.05000 1.57591 4.6538E+02 5.7753E+05 75 82 19 4.05000 1.53221 4.6748E+02 5.4840E+05 4.05000 1.48851 4.7058E+02 5.2205E+05 76 82 18 4.05000 1.44481 4.7467E+02 4.9873E+05 4.05000 1.40110 4.8045E+02 4.1657E+05 77 82 17 4.05000 1.35740 4.8796E+02 3.8372E+05 4.05000 1.31370 4.9684E+02 3.5566E+05 78 82 16 4.05000 1.27000 5.0709E+02 3.3288E+05 Summary for the above stem segment: Emax = 7.8106E+05 V/m Hmax = 1.0828E+03 A/m Surface Area = 2.1143E+01 cm^2 Power = 1.1115E+01 W Maximum P/A = 1.7358E+00 W/cm^2 Average P/A = 5.2570E-01 W/cm^2 df = -1.9336E+00 MHz for 1 stem with radius = 1.000 cm. df/f = -2.4014E-03 ------------------------------------------------------------------------------- Transit-time factor summary Input data for Parmila; originating program = Autofish. Cavity type: Unknown RF Cavity Design frequency = 805.189 MHz Resonant frequency = 805.189 MHz Design beta = 0.382462 Particle beta = 0.382462 Cavity E0 = 1.00000 MV/m Transit-time factor = 0.601038 Normalization length = 7.12002 cm Cell Zstart(cm) Zcenter(cm) Zend(cm) Lnorm(cm) E0(MV/m) g/bl 1 -4.05000 0.00000 3.07002 7.12002 1.00000 0.264636 Cell 1 Beta = 0.382462 dZctr = -8.302997E-02 X X1 X2 X1+X2 |X1|+|X2| T 0.2773965 0.3232380 0.6006344 0.6006344 T' 6.0757058E-02 4.8980402E-02 0.1097375 0.1097375 T" 2.8483502E-03 4.3001427E-03 7.1484930E-03 7.1484930E-03 S -0.3416347 0.3196202 -2.2014464E-02 0.6612550 S' -2.3871691E-02 3.1588511E-02 7.7168207E-03 5.5460202E-02 S" -1.2405359E-02 8.3458107E-03 -4.0595479E-03 2.0751169E-02 SFDATA line expected in old versions of Parmila: 0.382462 0.600634 0.109737 0.330627 2.773010E-02 0.264636 47.9607 ------------------------------------------------------------------------------- Problem variables computed by this code. Variable Code Value Description ASCALE 5830.18556 Scaling factor for H at drive point BETA 0.382461893 Particle velocity CAPK 0.441233684 2pi/beta*lambda, phase change/length EMAX 2947367.68 Peak electric field on boundary segments ENERGY 5.877144420E-03 Total stored energy in RF fields EZERO 1000000.00 E0 for normalization in SFO when NORM=0 EZEROT 601037.729 E0*T for normalization in SFO when NORM=1 FREQC 803.255079 Frequency corrected for stems and posts HCORNER 0.0 Average H at corner arc with coupling slot HMAX 1691.35265 Peak H on specified boundary segments HPHI 1040.02587 Normalization magnetic field for NORM=2 NCELL 0 Number of cells for multicell problems NPEG 11 Number of FieldSegments entries NRESIST 0 Number of segments with unique resistivity NSTEM 0 Number of stems for multicell problems POWER 1484.55224 Power on conducting boundaries RHOC 1.724100000E-06 Computed resistivity for IRTYPE=3 RS 7.403037106E-03 RF surface resistance (Ohms) SAREA 1673.36288 Total surface area in power calculations T 0.601037729 Transit-time factor ZLONG 7.12002000 Length in SFO used to define E0 Superfish output summary for problem description: 805 MHz Muon TM010 Pillbox Cavity with button In this problem, Kmax < Lmax Problem file: Z:\HOME\JCG\.WINE\SUPERFISH-EXAMPLES\FNAL-BUTTON-805.AF 3-29-2008 13:26:38 ------------------------------------------------------------------------------- All calculated values below refer to the mesh geometry only. Field normalization (NORM = 0): EZERO = 1.00000 MV/m Frequency = 805.18869 MHz Particle rest mass energy = 938.272029 MeV Beta = 0.3824619 Kinetic energy = 77.205 MeV Normalization factor for E0 = 1.000 MV/m = 5830.186 Transit-time factor = 0.6010377 Stored energy = 0.0058771 Joules Using standard room-temperature copper. Surface resistance = 7.40304 milliOhm Normal-conductor resistivity = 1.72410 microOhm-cm Operating temperature = 20.0000 C Power dissipation = 1484.5522 W Q = 20028.5 Shunt impedance = 47.961 MOhm/m Rs*Q = 148.272 Ohm Z*T*T = 17.326 MOhm/m r/Q = 61.592 Ohm Wake loss parameter = 0.07790 V/pC Average magnetic field on the outer wall = 1537.78 A/m, 0.875326 W/cm^2 Maximum H (at Z,R = 2.736,12.619) = 1691.35 A/m, 1.05888 W/cm^2 Maximum E (at Z,R = 3.07002,0.0) = 2.94737 MV/m, 0.113103 Kilp. Ratio of peak fields Bmax/Emax = 0.7211 mT/(MV/m) Peak-to-average ratio Emax/E0 = 2.9474 Wall segments: Segment Zend Rend Emax Power P/A dF/dZ dF/dR (cm) (cm) (MV/m) (W) (W/cm^2) (MHz/mm) (MHz/mm) ---------------------------------------------------------------------------------------------- -4.0500 8.0000 2 -3.8790 8.0000 0.1128 3.452 0.4017 0.000 -3.9375E-02 3 -2.7360 9.1430 0.9235 51.50 0.5426 0.8289 0.3746 4 -2.7360 14.357 0.8245 381.7 0.9917 -2.364 0.000 5 -1.4660 15.627 9.9978E-02 173.5 0.9129 -1.281 -1.272 6 1.4660 15.627 1.1205E-02 252.1 0.8757 0.000 -2.931 7 2.7360 14.357 9.9966E-02 173.5 0.9130 -1.281 -1.272 8 2.7360 9.1430 0.8079 381.9 0.9921 -2.371 0.000 9 3.8790 8.0000 0.9282 51.74 0.5451 0.8172 0.3660 10 4.0500 8.0000 0.1135 3.481 0.4050 0.000 -3.9600E-02 4.0500 1.2700 12 3.0700 0.0000 2.947 0.5246 7.1358E-02 0.3378 0.2339 ---------------------------------------------------------------------------------------------- Total 1473. Stem segments [for 1 half stem of radius 1.00000 cm]: Segment Zend Rend Power P/A dF (cm) (cm) (W) (W/cm^2) (MHz/mm) ---------------------------------------------------------------------------------------------- 4.0500 8.0000 -11 4.0500 1.2700 11.11 0.5257 -1.934 ---------------------------------------------------------------------------------------------- Total 11.11 -1.934 ---------------------------------------------------------------------------------------------- Cavity frequency corrected for stems and post couplers = 803.255079 MHz