1***************************************************************************** * * * * * $$ $$ $$ $$$$$ $$ $$ * * vers: 99.396 * * $$$ $$ $$ $$$$$$$ $$ $$ * nuclear * site: lanl t2 * * $$$$ $$ $$ $$ $$ $$$$ * data * mach: pc_ifort * * $$ $$$$ $$ $$ $$ $$ $$ * processing * date: 08/12/13 * * $$ $$$ $$$$$$$ $$$$$$$ $$ * system * time: 11:29:40 * * $$ $$ $$$$$ $$$$$ $$ * * * * * * * ***************************************************************************** moder...change the mode of an endf/b tape or njoy output tape 0.0s input unit (+ for coded, - for bb) ... 20 output unit (+ for coded, - for bb) .. -21 tape label -------------------------------------- endf/b-v tape 511 (standards materials) using endf-5 format 0.1s ***************************************************************************** reconr...reconstruct pointwise cross sections in pendf format 0.1s unit for endf/b tape ................. -21 unit for pendf tape .................. -22 label for pendf tape ------------------------------------------------------------------ pendf tape for c-nat from endf/b tape 511 tape label ------------------------------------------------------------------ endf/b-v tape 511 (standards materials) storage 17/ 100000 material to be processed ............. 1306 reconstruction tolerance ............. 0.005 reconstruction temperature ........... 0.00k resonance-integral-check tolerance ... 0.050 max resonance-integral error ......... 2.500E-07 descriptive cards for pendf tape ------------------------------------------------------------------ 6-c-nat from tape 511 processed by the njoy nuclear data processing system see original endf/b-v tape for details of evaluation processing mat 1306 in endf-5 format ------------------------------------------------------------------ 6-c - ornl eval-dec73 c.y.fu and f.g.perey mat has no resonance parameters changed threshold from 4.812000E+06 to 4.812123E+06 for mt 51. changed threshold from 8.296000E+06 to 8.296278E+06 for mt 52. changed threshold from 1.044800E+07 to 1.044814E+07 for mt 53. changed threshold from 1.175100E+07 to 1.175117E+07 for mt 55. changed threshold from 1.364600E+07 to 1.364610E+07 for mt103. changed threshold from 1.364600E+07 to 1.364610E+07 for mt203. number of user and resonance nodes = 0 points in initial unionized grid = 774 points added by linearization = 259 0.1s number of points in final unionized grid = 1033 usage 27082/ 100000 0.1s ***************************************************************************** broadr...doppler broadening of endf/b data 0.1s unit for input endf tape ............. -21 unit for input pendf tape ............ -22 unit for output pendf tape ........... -23 material to be processed ............. 1306 number of final temperatures ......... 1 restart (0 no, 1 yes) ................ 0 bootstrap (0 no, 1 yes) .............. 0 starting material temperature ........ 0.0k thinning tolerance ................... 0.005 max. energy .......................... 1.000E+06 errmax for thinning .................. 5.000E-02 errint for thinning .................. 2.500E-07 final temperatures ................... 3.000E+02 storage 10/15000000 files are in endf-5 format max energy for broadening and thinning = 1.00000E+06 0.2s broadened mat1306 from 0.0000E+00 to 3.0000E+02 k points in= 1033 points out= 965 mt 2 102 0.2s ***************************************************************************** heatr...prompt kerma 0.2s storage 15/ 150000 input endf/b unit .................... -21 input pendf unit ..................... -23 output pendf unit .................... -22 mat to be processed .................. 1306 no. temperatures (0=all) ............. 0 gamma heat (0 nonlocal, 1 local) ..... 0 print option (0 min, 1 more, 2 chk) .. 0 damage displacement energy ........... default partial kerma mt-s desired ........... 444 default damage energy = 31.0 ev temp 1 0.2s temp 1 0.3s usage 12249/ 150000 0.3s ***************************************************************************** thermr...compute thermal scattering cross sections and matrices 0.3s storage 10/ 800000 unit for endf/b tape ................. 0 unit for input pendf tape ............ -22 unit for output pendf tape ........... -24 material to be processed (endf) ...... 0 material to be processed (pendf) ..... 1306 number of angle bins ................. 8 number of temperatures ............... 1 inelastic option ..................... 1 elastic option ....................... 0 number of principal atoms ............ 1 reference mt ......................... 221 print option (0 min, 1 max) .......... 0 temperatures (kelvin) ................ 3.0000E+02 tolerance ............................ 5.0000E-02 max energy for thermal treatment ..... 1.2000E+00 endf uses endf-5 format pendf uses endf-5 format wrote thermal data for temp = 3.0000E+02 0.7s usage 72663/ 800000 0.7s ***************************************************************************** thermr...compute thermal scattering cross sections and matrices 0.7s storage 10/ 800000 unit for endf/b tape ................. 26 unit for input pendf tape ............ -24 unit for output pendf tape ........... -23 material to be processed (endf) ...... 1065 material to be processed (pendf) ..... 1306 number of angle bins ................. 8 number of temperatures ............... 1 inelastic option ..................... 4 elastic option ....................... 1 number of principal atoms ............ 1 reference mt ......................... 229 print option (0 min, 1 max) .......... 0 temperatures (kelvin) ................ 3.0000E+02 tolerance ............................ 5.0000E-02 max energy for thermal treatment ..... 1.2000E+00 parameters for sct app. ----------------------- effective temperatures ............... 7.1339E+02 endf uses endf-4 format pendf uses endf-5 format difference between temperatures desired and found is 4.00E+00 ***warning***maximum value of beta limits the allowed energy transfer the sct approx. will be used for transfers larger than 1.024 ev. wrote thermal data for temp = 3.0000E+02 2.2s usage 76133/ 800000 2.2s ***************************************************************************** groupr...compute self-shielded group-averaged cross-sections 2.3s storage 23/ 7000000 unit for endf/b tape ................. -21 unit for pendf tape .................. -23 unit for input gout tape ............. 0 unit for output gout tape ............ -24 mat to be processed .................. 1306 neutron group structure option ....... 3 gamma group option ................... 3 weight function option ............... 3 legendre order ....................... 3 print option (0 min, 1 max) .......... 1 run title -------------------------------------- carbon in graphite temperatures (kelvin) ................ 3.00E+02 sigma zeroes ......................... infinity neutron group structure......lanl 30 group 1 1.39000E-04 - 1.52000E-01 2 1.52000E-01 - 4.14000E-01 3 4.14000E-01 - 1.13000E+00 4 1.13000E+00 - 3.06000E+00 5 3.06000E+00 - 8.32000E+00 6 8.32000E+00 - 2.26000E+01 7 2.26000E+01 - 6.14000E+01 8 6.14000E+01 - 1.67000E+02 9 1.67000E+02 - 4.54000E+02 10 4.54000E+02 - 1.23500E+03 11 1.23500E+03 - 3.35000E+03 12 3.35000E+03 - 9.12000E+03 13 9.12000E+03 - 2.48000E+04 14 2.48000E+04 - 6.76000E+04 15 6.76000E+04 - 1.84000E+05 16 1.84000E+05 - 3.03000E+05 17 3.03000E+05 - 5.00000E+05 18 5.00000E+05 - 8.23000E+05 19 8.23000E+05 - 1.35300E+06 20 1.35300E+06 - 1.73800E+06 21 1.73800E+06 - 2.23200E+06 22 2.23200E+06 - 2.86500E+06 23 2.86500E+06 - 3.68000E+06 24 3.68000E+06 - 6.07000E+06 25 6.07000E+06 - 7.79000E+06 26 7.79000E+06 - 1.00000E+07 27 1.00000E+07 - 1.20000E+07 28 1.20000E+07 - 1.35000E+07 29 1.35000E+07 - 1.50000E+07 30 1.50000E+07 - 1.70000E+07 gamma group structure......lanl 12 group 1 1.00000E+04 - 1.00000E+05 2 1.00000E+05 - 5.00000E+05 3 5.00000E+05 - 1.00000E+06 4 1.00000E+06 - 2.00000E+06 5 2.00000E+06 - 3.00000E+06 6 3.00000E+06 - 4.00000E+06 7 4.00000E+06 - 5.00000E+06 8 5.00000E+06 - 6.00000E+06 9 6.00000E+06 - 7.00000E+06 10 7.00000E+06 - 8.00000E+06 11 8.00000E+06 - 9.00000E+06 12 9.00000E+06 - 2.00000E+07 weight function......1/e for all l id scr 1/ 356 using endf-5 format ---message from conver---cannot do complete particle production for mt= 91 only mf4/mf5 provided processing mat 1306 -------------------------------------- 6-c-nat from tape 511 id unr 2/ 6999924 xx unr 1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 1 total enrgy group constants at group infinite dilution 1 8.09978+0 flx 6.99727+0 2 4.76175+0 flx 1.00200+0 3 4.74775+0 flx 1.00412+0 4 4.74248+0 flx 9.96213-1 5 4.74046+0 flx 1.00026+0 6 4.73962+0 flx 9.99304-1 7 4.73920+0 flx 9.99476-1 8 4.73877+0 flx 1.00060+0 9 4.73789+0 flx 1.00012+0 10 4.73563+0 flx 1.00075+0 11 4.72944+0 flx 9.97906-1 12 4.71395+0 flx 1.00153+0 13 4.67991+0 flx 1.00039+0 14 4.59044+0 flx 1.00278+0 15 4.36089+0 flx 1.00134+0 16 4.01466+0 flx 4.98805-1 17 3.63705+0 flx 5.00883-1 18 3.12666+0 flx 4.98356-1 19 2.50410+0 flx 4.97131-1 20 2.00459+0 flx 2.50414-1 21 1.81905+0 flx 2.50166-1 22 1.69982+0 flx 2.49673-1 23 2.24114+0 flx 2.50346-1 24 1.56698+0 flx 5.00449-1 25 1.24442+0 flx 2.49484-1 26 1.33606+0 flx 2.49745-1 27 1.28912+0 flx 1.82323-1 28 1.36107+0 flx 1.17784-1 29 1.33400+0 flx 1.05361-1 30 1.47246+0 flx 1.25165-1 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 2 elastic enrgy group constants at group infinite dilution 1 8.08711+0 2 4.76065+0 3 4.74709+0 4 4.74208+0 5 4.74022+0 6 4.73948+0 7 4.73911+0 8 4.73872+0 9 4.73786+0 10 4.73561+0 11 4.72943+0 12 4.71394+0 13 4.67991+0 14 4.59044+0 15 4.36089+0 16 4.01466+0 17 3.63705+0 18 3.12665+0 19 2.50409+0 20 2.00459+0 21 1.81905+0 22 1.69981+0 23 2.24113+0 24 1.51525+0 25 9.82787-1 26 8.37919-1 27 7.58240-1 28 8.63178-1 29 8.22584-1 30 8.84810-1 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 4 inelastic enrgy group constants at group infinite dilution 24 5.16941-2 25 2.46533-1 26 3.31065-1 27 4.29043-1 28 4.01560-1 29 4.29990-1 30 4.93232-1 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 51 discrete inelastic enrgy group constants at group infinite dilution 24 5.16941-2 25 2.46533-1 26 3.19914-1 27 3.11478-1 28 2.15499-1 29 1.85024-1 30 1.35356-1 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 52 continued lr 23 particle emission enrgy group constants at group infinite dilution 26 9.78183-3 27 4.60728-2 28 2.98340-2 29 1.26072-2 30 7.63275-3 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 53 continued lr 23 particle emission enrgy group constants at group infinite dilution 27 5.67914-2 28 8.61094-2 29 6.14858-2 30 4.34159-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 54 continued lr 23 particle emission enrgy group constants at group infinite dilution 27 2.67321-3 28 1.00145-2 29 6.86616-3 30 4.98705-3 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 55 continued lr 23 particle emission enrgy group constants at group infinite dilution 27 1.54522-4 28 1.24153-2 29 1.86848-2 30 1.64764-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 56 continued lr 23 particle emission enrgy group constants at group infinite dilution 28 2.20367-2 29 4.03046-2 30 3.82143-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 57 continued lr 23 particle emission enrgy group constants at group infinite dilution 28 5.96738-3 29 3.68718-2 30 4.45570-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 58 continued lr 23 particle emission enrgy group constants at group infinite dilution 28 4.41429-4 29 2.42131-2 30 4.35216-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 59 continued lr 23 particle emission enrgy group constants at group infinite dilution 29 1.49229-2 30 4.32299-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 60 continued lr 23 particle emission enrgy group constants at group infinite dilution 29 3.95944-3 30 3.49380-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 61 continued lr 23 particle emission enrgy group constants at group infinite dilution 29 7.55228-5 30 2.32496-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 62 continued lr 23 particle emission enrgy group constants at group infinite dilution 30 1.61775-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 63 continued lr 23 particle emission enrgy group constants at group infinite dilution 30 4.39157-3 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 64 continued lr 23 particle emission enrgy group constants at group infinite dilution 30 6.36464-4 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 threshold is above highest energy bound for mt 65 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 threshold is above highest energy bound for mt 66 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 threshold is above highest energy bound for mt 67 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 threshold is above highest energy bound for mt 68 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt 91 continuum inelastic lr 23 particle emission enrgy group constants at group infinite dilution 26 1.36928-3 27 1.18726-2 28 1.92422-2 29 2.49750-2 30 3.64478-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt102 n,g enrgy group constants at group infinite dilution 1 1.26658-2 2 1.09263-3 3 6.62632-4 4 4.01779-4 5 2.44038-4 6 1.47966-4 7 8.99126-5 8 5.44245-5 9 3.30580-5 10 2.01489-5 11 1.50992-5 12 8.58368-6 13 1.06810-6 14 9.63688-7 15 9.13247-7 16 9.34643-7 17 9.73327-7 18 1.08331-6 19 1.60027-6 20 3.46510-6 21 5.54729-6 22 1.03226-5 23 1.57295-5 24 2.82940-5 25 7.41606-5 26 1.07373-4 27 7.23863-5 28 7.14181-5 29 1.25784-4 30 1.91196-4 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt103 (n,p) enrgy group constants at group infinite dilution 29 1.59955-4 30 7.54928-3 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt104 (n,d) enrgy group constants at group infinite dilution 30 1.80838-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt107 (n,a) enrgy group constants at group infinite dilution 25 1.50300-2 26 1.66970-1 27 1.01765-1 28 9.62618-2 29 8.11368-2 30 6.85904-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.3s for mf 3 and mt221 free thermal scattering enrgy group constants at group infinite dilution 1 8.08711+0 2 4.76065+0 3 4.74709+0 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.4s for mf 3 and mt229 graphite inelastic thermal scattering enrgy group constants at group infinite dilution 1 4.62678-1 2 2.49285+0 3 3.75954+0 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.4s for mf 3 and mt230 graphite elastic thermal scattering enrgy group constants at group infinite dilution 1 2.68777+0 2 2.17499+0 3 9.16615-1 xx ans -1 id ans 3/ 360 id ff 4/ 363 id prod 5/ 393 id sig 6/ 749 id fls 7/ 1099 xx fls 350 group constants at t=3.000E+02 deg k 2.4s for mf 3 and mt251 mubar enrgy group constants at group infinite dilution 1 5.60370-2 2 5.60370-2 3 5.60371-2 4 5.60373-2 5 5.60377-2 6 5.60390-2 7 5.60424-2 8 5.60517-2 9 5.60771-2 10 5.61459-2 11 5.63320-2 12 5.68366-2 13 5.81729-2 14 6.17228-2 15 7.04734-2 16 8.32143-2 17 9.57517-2 18 1.09886-1 19 1.19274-1 20 1.12334-1 21 8.19852-2 22 2.33513-2 23 2.65394-2 24 2.48817-1 25 3.40544-1 26 4.96274-1 27 5.90687-1 28 5.79272-1 29 6.25862-1 30 6.84813-1 xx ans -1 id ans 3/ 360 id ff 4/ 363 id prod 5/ 393 id sig 6/ 749 id fls 7/ 1099 xx fls 350 group constants at t=3.000E+02 deg k 2.5s for mf 3 and mt252 xi enrgy group constants at group infinite dilution 2 1.59367-1 3 1.59173-1 4 1.59103-1 5 1.59077-1 6 1.59068-1 7 1.59065-1 8 1.59066-1 9 1.59072-1 10 1.59091-1 11 1.59142-1 12 1.59237-1 13 1.59439-1 14 1.60089-1 15 1.61780-1 16 1.58205-1 17 1.58082-1 18 1.58263-1 19 1.59730-1 20 1.43877-1 21 1.46583-1 22 1.52323-1 23 1.46569-1 24 1.55845-1 25 1.03929-1 26 9.17859-2 27 5.35630-2 28 4.60643-2 29 3.97275-2 30 3.95044-2 xx ans -1 id ans 3/ 360 id ff 4/ 363 id prod 5/ 393 id sig 6/ 749 id fls 7/ 1099 xx fls 350 group constants at t=3.000E+02 deg k 2.6s for mf 3 and mt253 gamma enrgy group constants at group infinite dilution 2 1.09077-1 3 1.09102-1 4 1.09110-1 5 1.09113-1 6 1.09115-1 7 1.09115-1 8 1.09114-1 9 1.09113-1 10 1.09108-1 11 1.09094-1 12 1.09058-1 13 1.08976-1 14 1.08744-1 15 1.08140-1 16 1.06734-1 17 1.05574-1 18 1.04153-1 19 1.02872-1 20 9.36084-2 21 1.00931-1 22 1.11497-1 23 1.13446-1 24 8.41190-2 25 9.81023-2 26 7.70117-2 27 7.50292-2 28 4.37983-2 29 3.87475-2 30 4.25865-2 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.6s for mf 3 and mt301 total heat production enrgy group constants at group infinite dilution 1 1.12472+1 2 1.14695+0 3 1.07180+0 4 1.67050+0 5 3.78228+0 6 9.81971+0 7 2.63975+1 8 7.15882+1 9 1.94510+2 10 5.28605+2 11 1.43318+3 12 3.88008+3 13 1.04586+4 14 2.77799+4 15 7.08812+4 16 1.32723+5 17 1.95281+5 18 2.71844+5 19 3.53476+5 20 4.14218+5 21 4.99006+5 22 6.35535+5 23 1.06136+6 24 8.01104+5 25 8.70274+5 26 1.40182+6 27 1.63944+6 28 2.30838+6 29 2.84000+6 30 3.87322+6 xx ans -1 id ans 3/ 359 id ff 4/ 361 id prod 5/ 391 id sig 6/ 747 group constants at t=3.000E+02 deg k 2.6s for mf 3 and mt444 total damage energy production enrgy group constants at group infinite dilution 1 8.47319+0 2 7.30945-1 3 4.43288-1 4 2.68783-1 5 1.63257-1 6 9.89863-2 7 6.01498-2 8 1.24927+1 9 1.35416+2 10 4.15628+2 11 1.10337+3 12 2.83191+3 13 7.02005+3 14 1.62318+4 15 3.27368+4 16 4.80099+4 17 5.63173+4 18 5.99946+4 19 5.72850+4 20 5.15526+4 21 4.98019+4 22 4.92974+4 23 6.50865+4 24 4.60009+4 25 3.78923+4 26 3.81110+4 27 3.83522+4 28 4.12944+4 29 4.13224+4 30 4.62476+4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 350 group constants at t=3.000E+02 deg k 2.7s for mf 6 and mt 2 elastic initl final group constants vs legendre order group group 0 1 2 3 1 1 8.08711+0 4.53178-1 1.14376-2 4.20530-5 2 1 7.57185-1 -2.23225-1 -1.68972-2 -4.36196-4 2 2 4.00347+0 4.89998-1 2.36304-2 4.54273-4 3 2 7.52519-1 -2.21909-1 -1.67620-2 -4.30317-4 3 3 3.99457+0 4.87922-1 2.34761-2 4.48364-4 4 3 7.57359-1 -2.23356-1 -1.68591-2 -4.31780-4 4 4 3.98472+0 4.89090-1 2.35661-2 4.49770-4 5 4 7.53875-1 -2.22337-1 -1.67776-2 -4.29425-4 5 5 3.98635+0 4.87968-1 2.34823-2 4.47429-4 6 5 7.54435-1 -2.22504-1 -1.67887-2 -4.29574-4 6 6 3.98504+0 4.88100-1 2.34930-2 4.47581-4 7 6 7.54235-1 -2.22445-1 -1.67845-2 -4.29451-4 7 7 3.98488+0 4.88037-1 2.34899-2 4.47469-4 8 7 7.53330-1 -2.22175-1 -1.67662-2 -4.29045-4 8 8 3.98539+0 4.87788-1 2.34754-2 4.47269-4 9 8 7.53584-1 -2.22240-1 -1.67773-2 -4.29576-4 9 9 3.98427+0 4.87925-1 2.34974-2 4.48367-4 10 9 7.52841-1 -2.21993-1 -1.67757-2 -4.30228-4 10 10 3.98276+0 4.87878-1 2.35257-2 4.50577-4 11 10 7.54242-1 -2.22331-1 -1.68481-2 -4.33976-4 11 11 3.97518+0 4.88749-1 2.36782-2 4.58508-4 12 11 7.49502-1 -2.20730-1 -1.68526-2 -4.39158-4 12 12 3.96444+0 4.88655-1 2.39008-2 4.75029-4 13 12 7.45882-1 -2.19156-1 -1.70457-2 -4.58276-4 13 13 3.93403+0 4.91400-1 2.47256-2 5.14889-4 14 13 7.32853-1 -2.13989-1 -1.74596-2 -5.13467-4 14 14 3.85759+0 4.97323-1 2.68952-2 6.84321-4 15 14 7.04569-1 -2.02357-1 -1.85394-2 -6.76025-4 15 15 3.65632+0 5.09683-1 3.28355-2 1.23688-3 16 15 1.27334+0 -3.51467-1 -4.03839-2 -2.33452-3 16 16 2.74132+0 6.85544-1 6.24079-2 3.73175-3 17 16 1.14789+0 -3.06364-1 -4.09690-2 -3.15849-3 17 17 2.48916+0 6.54618-1 7.12058-2 5.84182-3 18 17 9.92946-1 -2.54043-1 -3.95061-2 -4.19401-3 18 18 2.13371+0 5.97617-1 7.86833-2 8.90079-3 19 18 8.04589-1 -1.98341-1 -3.36872-2 -4.73945-3 19 19 1.69950+0 4.97013-1 7.85911-2 1.19042-2 20 19 1.15176+0 -2.55829-1 -7.30953-2 6.14349-3 20 20 8.52825-1 4.81013-1 1.22617-1 9.83588-4 21 19 6.73052-2 -5.56841-2 3.69440-2 -1.77669-2 21 20 9.98558-1 -2.46516-1 -4.29307-2 5.18140-3 21 21 7.53178-1 4.51334-1 1.49696-1 2.75210-2 22 20 7.70663-2 -6.41442-2 4.32078-2 -2.15756-2 22 21 9.59986-1 -3.32384-1 5.16515-2 -1.74582-3 22 22 6.62760-1 4.36220-1 1.88206-1 4.97583-2 23 21 1.62826-1 -1.35234-1 9.05424-2 -4.44425-2 23 22 1.14929+0 -5.03709-1 2.42072-1 -2.74118-2 23 23 9.29013-1 6.98421-1 4.14834-1 1.98525-1 24 22 7.79090-2 -6.58365-2 4.60586-2 -2.51619-2 24 23 3.93960-1 -8.58237-2 -7.66639-4 2.59557-2 24 24 1.04338+0 5.28680-1 2.77821-1 1.80851-1 25 24 4.09419-1 -1.08439-1 -7.98557-3 2.01619-2 25 25 5.73397-1 4.43131-1 2.90355-1 1.80817-1 26 24 4.00186-2 -3.24648-2 2.03842-2 -8.24575-3 26 25 2.67932-1 6.77956-3 6.76061-3 4.65911-2 26 26 5.29966-1 4.41521-1 3.33436-1 2.43491-1 27 25 8.75756-3 -7.04117-3 4.36407-3 -1.80929-3 27 26 2.14001-1 -1.05444-2 -1.11039-2 3.51944-2 27 27 5.35482-1 4.65468-1 3.54945-1 2.40029-1 28 26 8.30823-2 -4.92817-2 8.43910-3 1.23420-2 28 27 2.54502-1 7.53246-2 -6.51340-3 2.42343-2 28 28 5.25594-1 4.73972-1 3.84873-1 2.80451-1 29 26 4.32902-3 -4.07522-3 3.60567-3 -2.98847-3 29 27 1.21749-1 -4.97297-2 -1.25804-2 1.59244-2 29 28 1.84087-1 1.05313-1 2.70953-2 4.73748-4 29 29 5.12418-1 4.63316-1 3.78756-1 2.79914-1 30 27 2.72097-2 -2.12674-2 1.25511-2 -5.13428-3 30 28 6.86524-2 -1.71893-2 -1.84634-2 1.03209-2 30 29 1.83405-1 1.01630-1 1.93671-2 -7.49091-3 30 30 6.05544-1 5.42758-1 4.37214-1 3.18151-1 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 350 group constants at t=3.000E+02 deg k 2.8s for mf 6 and mt 51 discrete inelastic initl final group constants vs legendre order group group 0 1 2 3 24 5 1.89759-9 2.1332-12 -8.8018-10 -8.6149-11 24 6 5.38686-9 -1.4558-10 -2.39799-9 -1.4452-10 24 7 1.57120-8 -9.2337-10 -6.51741-9 -2.6921-10 24 8 4.77855-8 -4.66563-9 -1.77620-8 -5.8653-10 24 9 1.54187-7 -2.26577-8 -4.82656-8 -1.68412-9 24 10 5.43352-7 -1.11286-7 -1.31237-7 -6.05259-9 24 11 2.13686-6 -5.60471-7 -3.58302-7 -2.45317-8 24 12 1.00348-5 -2.68951-6 -7.80751-7 1.32132-7 24 13 5.55368-5 -1.32686-5 -1.23709-6 6.21336-7 24 14 3.39201-4 -7.69451-5 -1.20674-5 1.92626-7 24 15 1.77272-3 -2.54030-5 -1.16126-4 -4.14293-5 24 16 2.98140-3 -2.05240-4 2.57853-4 -4.59653-5 24 17 7.19942-3 -5.50621-4 -4.52091-4 1.90270-4 24 18 1.74670-2 1.37885-3 -8.90829-6 3.43884-5 24 19 2.04562-2 1.05647-2 1.87707-3 -4.50365-4 24 20 1.41123-3 1.28357-3 1.05460-3 7.69726-4 25 18 1.90205-3 -1.65911-3 1.24379-3 -7.69812-4 25 19 5.03597-2 -1.93534-2 -8.59856-4 1.23690-3 25 20 6.04031-2 9.29016-3 5.33113-3 -1.68430-3 25 21 7.24304-2 3.58181-3 1.12697-3 6.14369-3 25 22 5.44394-2 2.39681-2 -2.98712-3 -7.10082-3 25 23 6.99993-3 5.77381-3 3.78799-3 1.74242-3 26 21 1.54751-2 -1.24389-2 7.71636-3 -3.20008-3 26 22 6.88100-2 -3.06417-2 -4.46784-4 4.02351-3 26 23 1.14472-1 5.93458-3 8.75637-3 -3.67021-3 26 24 1.21156-1 7.68714-2 3.53029-2 1.66534-2 27 23 2.62415-3 -2.40745-3 2.01647-3 -1.52468-3 27 24 2.12525-1 7.52146-3 2.02677-2 2.62886-3 27 25 9.63294-2 7.70741-2 4.87970-2 2.39271-2 28 24 5.32321-2 -3.88201-2 1.95599-2 -5.67472-3 28 25 9.83134-2 3.54250-2 4.70441-3 2.35664-3 28 26 6.39532-2 5.39118-2 3.78887-2 2.16338-2 29 24 1.27915-3 -1.23179-3 1.14107-3 -1.01454-3 29 25 6.60295-2 -3.98973-2 1.15642-2 8.56788-4 29 26 1.07181-1 6.62779-2 2.15633-2 -9.07126-4 29 27 1.05347-2 9.63473-3 8.00407-3 5.93897-3 30 25 9.84422-3 -8.45046-3 6.15178-3 -3.68573-3 30 26 4.08218-2 -7.80760-3 -3.61912-3 -1.27467-3 30 27 7.87309-2 5.86021-2 3.05292-2 8.24468-3 30 28 5.95921-3 5.56630-3 4.84091-3 3.89124-3 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 350 group constants at t=3.000E+02 deg k 2.8s for mf 6 and mt 52 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 26 7 1.56970-9 -1.3403-10 -6.1339-10 -1.1571-11 26 8 4.90528-9 -6.6268-10 -1.67228-9 2.3023-11 26 9 1.63133-8 -3.13908-9 -4.55682-9 2.2442-10 26 10 5.88756-8 -1.48545-8 -1.24848-8 1.17756-9 26 11 2.44765-7 -5.89119-8 -2.26947-8 1.59913-8 26 12 1.26804-6 -1.51289-7 4.05550-8 8.18414-8 26 13 5.87890-6 -1.21345-6 1.13204-8 -5.35643-8 26 14 3.00492-5 -8.16856-6 5.02647-7 -9.72652-7 26 15 1.78218-4 -4.51754-5 1.42070-5 -9.85536-6 26 16 3.17280-4 -7.32649-5 4.28478-5 -2.71273-5 26 17 7.72909-4 -1.50501-4 1.39204-4 -8.09343-5 26 18 1.90650-3 -2.52570-4 4.04304-4 -1.41570-4 26 19 3.46940-3 9.23375-4 4.52153-4 2.70351-4 26 20 1.94918-3 1.39377-3 7.49513-4 4.26967-4 26 21 1.15088-3 1.06261-3 9.05739-4 7.12548-4 27 19 2.26108-3 -1.82030-3 1.17040-3 -5.90336-4 27 20 4.68754-3 -2.45408-3 8.63910-4 -7.03186-4 27 21 9.81980-3 -1.26460-3 1.23582-3 -9.14784-4 27 22 1.33110-2 5.34726-3 2.32763-3 1.85963-3 27 23 1.22724-2 8.94461-3 5.23947-3 3.45954-3 27 24 3.72116-3 3.45749-3 2.98164-3 2.38102-3 28 22 4.08811-3 -3.35783-3 2.21847-3 -1.11027-3 28 23 7.29839-3 -1.91695-3 -6.28210-4 -6.59112-4 28 24 1.84474-2 1.32262-2 7.77325-3 5.40873-3 29 23 6.89572-4 -6.10451-4 4.73285-4 -3.12575-4 29 24 8.50792-3 9.92145-4 1.13949-3 -3.75725-5 29 25 3.40963-3 3.08044-3 2.53934-3 1.94580-3 30 24 2.15170-3 -1.46051-3 7.33323-4 -3.33597-4 30 25 3.42400-3 1.73672-3 3.77094-4 2.23558-4 30 26 2.05705-3 1.84797-3 1.51022-3 1.14953-3 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 350 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 53 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 27 6 2.37634-9 -1.9949-10 -9.2220-10 -3.0965-11 27 7 7.41081-9 -1.03631-9 -2.51775-9 7.3081-11 27 8 2.45386-8 -4.92065-9 -6.89195-9 6.7406-10 27 9 8.70328-8 -2.27377-8 -1.90482-8 3.57772-9 27 10 3.93242-7 -5.00867-8 -8.05757-9 5.18602-8 27 11 2.03706-6 2.44192-8 1.06417-7 1.18780-7 27 12 8.49584-6 -8.64081-7 -3.59189-7 -2.03058-7 27 13 4.08362-5 -3.89616-6 -1.00733-6 -8.34850-8 27 14 1.96415-4 -2.68754-5 -1.52962-5 -4.53998-6 27 15 1.08947-3 -4.52555-5 -1.06630-4 -2.46858-6 27 16 1.89625-3 1.03343-4 -2.03736-4 5.53841-6 27 17 5.09954-3 4.76418-4 -4.67550-4 -1.92508-6 27 18 1.33436-2 2.04048-3 -1.04184-3 3.97473-5 27 19 2.35437-2 9.51184-3 -5.64732-4 -1.15487-3 27 20 9.57748-3 6.92931-3 3.24446-3 4.42032-4 27 21 1.99389-3 1.79955-3 1.45448-3 1.03270-3 28 18 2.35001-5 -2.23813-5 2.02574-5 -1.73409-5 28 19 7.70792-3 -3.40471-3 -7.20769-4 1.50832-3 28 20 1.60547-2 -5.95966-4 -4.63149-3 -5.66355-4 28 21 2.88466-2 9.71753-3 -1.43009-3 -1.26270-3 28 22 2.44216-2 1.39907-2 3.15463-3 -8.72993-4 28 23 9.05504-3 7.30695-3 4.60295-3 2.03919-3 29 21 1.58401-3 -1.10132-3 4.16717-4 1.13038-4 29 22 1.06003-2 -3.14742-3 -2.47260-3 1.82669-3 29 23 2.55520-2 6.40856-3 -4.77113-3 -2.52070-3 29 24 2.37495-2 1.63664-2 7.10760-3 1.33775-3 30 22 7.61226-6 -7.32125-6 6.76240-6 -5.97952-6 30 23 2.76280-3 -1.55845-3 1.20394-4 5.83089-4 30 24 3.53328-2 1.03845-2 -2.79413-3 -1.26499-3 30 25 5.31249-3 4.33518-3 2.80523-3 1.31996-3 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 54 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 27 6 1.34128-9 2.3847-12 -6.2759-10 -5.4481-11 27 7 3.79249-9 -8.5052-11 -1.70932-9 -1.0312-10 27 8 1.10019-8 -5.4862-10 -4.65541-9 -2.2144-10 27 9 3.30747-8 -2.78301-9 -1.26666-8 -6.0083-10 27 10 1.05217-7 -1.33955-8 -3.45831-8 -2.04899-9 27 11 3.60260-7 -6.39668-8 -9.45253-8 -8.21198-9 27 12 1.38196-6 -3.14107-7 -2.65602-7 -3.67464-8 27 13 6.03354-6 -1.58119-6 -7.90367-7 -1.83672-7 27 14 3.15185-5 -7.55628-6 -2.17568-6 -5.85621-7 27 15 1.87403-4 -3.75298-5 -8.35748-6 -5.06330-6 27 16 3.47481-4 -4.84571-5 -3.04280-6 1.95232-7 27 17 7.12449-4 3.22537-5 -8.99675-5 2.47929-5 27 18 9.15250-4 4.31528-4 -1.88108-5 -1.11368-4 27 19 4.71365-4 3.76803-4 2.30851-4 9.34162-5 28 17 2.42559-4 -1.86972-4 1.03596-4 -2.97690-5 28 18 1.43110-3 -5.81041-4 -1.15756-4 1.50397-4 28 19 3.85809-3 2.33971-4 -3.28615-4 -1.82432-4 28 20 2.25121-3 7.95643-4 -2.86270-5 2.73412-5 28 21 1.59555-3 9.12502-4 1.81708-4 -1.00914-4 28 22 6.35910-4 5.11658-4 3.18874-4 1.35348-4 28 23 4.26625-8 4.25951-8 4.24614-8 4.22611-8 29 19 1.97484-5 -1.86353-5 1.65494-5 -1.37482-5 29 20 4.96488-4 -3.55632-4 1.59536-4 -1.11962-5 29 21 1.41946-3 -5.67677-4 -1.23443-4 1.44880-4 29 22 2.33197-3 2.00199-4 -4.82118-4 -1.11411-4 29 23 2.06554-3 1.14120-3 1.89279-4 -1.43803-4 29 24 5.32950-4 4.37856-4 2.86516-4 1.35279-4 30 22 3.43184-4 -2.59538-4 1.37248-4 -3.43428-5 30 23 1.32486-3 -5.17107-4 -1.20404-4 1.32108-4 30 24 3.26347-3 1.23952-3 -3.64919-5 -1.31476-4 30 25 5.55275-5 5.13193-5 4.36279-5 3.37358-5 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 55 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 27 8 2.76806-9 5.4294-10 6.2616-10 7.8207-10 27 9 1.35012-8 2.28407-9 4.0932-10 -1.15405-9 27 10 4.65197-8 -2.66560-9 -6.34959-9 -6.19735-9 27 11 1.74258-7 -3.47540-8 -2.55129-8 -1.07617-8 27 12 9.57421-7 -1.36335-8 4.81855-8 5.41094-8 27 13 4.11531-6 -6.26521-7 -1.76595-7 -1.58281-7 27 14 1.70273-5 -1.62804-6 -2.92081-6 2.04721-7 27 15 4.76963-5 1.62026-5 -8.55300-6 -8.25294-6 27 16 4.42087-5 2.91658-5 9.13359-6 -4.24397-6 27 17 3.94659-5 3.36473-5 2.39288-5 1.33007-5 27 18 8.66602-7 8.51845-7 8.22896-7 7.80859-7 28 14 5.35908-6 -4.44137-6 2.95155-6 -1.40926-6 28 15 1.23283-4 -6.77057-5 9.92852-6 9.92180-6 28 16 3.11034-4 -1.15815-4 -1.67017-5 8.06837-6 28 17 9.69857-4 -2.15128-4 -5.06435-5 -2.12337-5 28 18 2.73571-3 -2.90067-4 -5.50597-5 7.65935-6 28 19 4.88666-3 8.98422-4 -5.19289-4 -5.32770-5 28 20 2.28017-3 1.34498-3 2.69606-4 -2.27979-4 28 21 1.09932-3 9.01928-4 5.87944-4 2.74512-4 28 22 4.00470-6 3.96366-6 3.88252-6 3.76314-6 29 19 1.53683-3 -1.03536-3 3.91189-4 1.60979-5 29 20 3.15277-3 -1.16346-3 -3.19616-4 2.41822-4 29 21 5.43572-3 2.72920-5 -9.66158-4 -1.64162-4 29 22 5.57601-3 2.48541-3 -8.76764-5 -3.82700-4 29 23 2.89866-3 2.13673-3 1.06400-3 2.23896-4 29 24 8.47898-5 8.12244-5 7.44319-5 6.50464-5 30 21 4.86519-4 -4.01607-4 2.64699-4 -1.24720-4 30 22 2.71959-3 -1.43427-3 1.06536-4 3.21005-4 30 23 5.60003-3 -4.77094-4 -1.13540-3 -7.31393-5 30 24 7.67024-3 4.12756-3 8.54682-4 -1.23130-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 56 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 28 6 2.49230-9 -9.2278-11 -1.07320-9 -7.4545-11 28 7 7.37616-9 -5.8831-10 -2.91993-9 -6.7907-11 28 8 2.28831-8 -2.95926-9 -7.97253-9 1.1996-10 28 9 7.52655-8 -1.39938-8 -2.17859-8 1.24493-9 28 10 2.67422-7 -6.54683-8 -6.01943-8 6.67765-9 28 11 1.07224-6 -2.68351-7 -1.31953-7 6.74634-8 28 12 5.68680-6 -4.88350-7 6.72358-8 2.78888-7 28 13 2.63028-5 -3.69291-6 -2.48522-7 3.26891-7 28 14 1.31458-4 -2.62799-5 -4.61015-6 -1.90136-6 28 15 7.64002-4 -1.42250-4 -1.98545-5 -6.55799-6 28 16 1.38029-3 -2.12321-4 -2.26129-5 -5.59786-6 28 17 3.46717-3 -3.64528-4 -9.52145-5 1.73246-5 28 18 6.87608-3 6.09204-4 -6.75649-4 7.90470-5 28 19 7.54361-3 3.96106-3 4.51242-4 -6.11172-4 28 20 1.81537-3 1.51619-3 1.02953-3 5.22724-4 28 21 2.61609-5 2.56764-5 2.47275-5 2.33536-5 29 18 9.49179-4 -7.48925-4 4.41579-4 -1.56252-4 29 19 8.19487-3 -3.29620-3 -4.93215-4 6.12566-4 29 20 9.81963-3 -4.51970-4 -1.33712-3 -3.86165-4 29 21 1.12404-2 3.80532-3 -8.05658-4 -2.52675-4 29 22 8.07697-3 5.00745-3 1.35921-3 -5.35984-4 29 23 2.02372-3 1.73480-3 1.25079-3 7.18536-4 30 20 3.11586-4 -2.80344-4 2.24854-4 -1.57025-4 30 21 3.48064-3 -2.26725-3 7.31078-4 1.97655-4 30 22 9.00202-3 -2.84109-3 -1.17736-3 5.13564-4 30 23 1.38479-2 2.59591-3 -1.91940-3 -5.70096-4 30 24 1.15722-2 7.24866-3 2.37648-3 1.59073-5 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 57 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 28 6 1.62582-9 -7.5041-11 -6.8563-10 -4.3399-11 28 7 4.87233-9 -4.5887-10 -1.86587-9 -2.4955-11 28 8 1.53533-8 -2.26488-9 -5.09040-9 1.7115-10 28 9 5.14805-8 -1.06379-8 -1.39250-8 1.22237-9 28 10 1.86686-7 -4.96339-8 -3.85941-8 6.18869-9 28 11 1.02409-6 3.24636-8 1.10174-7 1.89999-7 28 12 4.68103-6 -8.62406-8 1.93986-8 -1.25090-7 28 13 1.95183-5 -3.23841-6 -1.31387-6 -1.13564-6 28 14 9.55856-5 -2.12769-5 -6.25419-6 -3.56828-6 28 15 5.38132-4 -9.83413-5 -2.65672-5 -1.28043-5 28 16 9.32254-4 -1.02974-4 -2.99132-5 6.11657-6 28 17 1.58331-3 3.00930-4 -2.53242-4 9.84049-7 28 18 1.94722-3 1.08858-3 1.47457-4 -2.30251-4 28 19 8.46203-4 7.07552-4 4.81939-4 2.46901-4 29 16 1.69695-5 -1.60729-5 1.43858-5 -1.21034-5 29 17 8.62886-4 -6.05369-4 2.57180-4 -9.82395-6 29 18 4.25855-3 -1.70261-3 -2.47921-4 2.77937-4 29 19 1.30025-2 -5.52216-4 -1.09902-3 -1.65099-4 29 20 8.59192-3 2.69456-3 -8.09167-4 -1.81652-4 29 21 7.09903-3 4.12093-3 7.78788-4 -6.68535-4 29 22 3.04030-3 2.49423-3 1.62577-3 7.59315-4 30 19 3.10363-4 -2.77641-4 2.19899-4 -1.50132-4 30 20 2.83995-3 -1.90135-3 6.76214-4 1.20224-4 30 21 7.49960-3 -2.87734-3 -6.62612-4 6.08728-4 30 22 1.35299-2 -5.45642-5 -2.06158-3 -3.91383-4 30 23 1.36381-2 5.79471-3 -2.99195-4 -7.65957-4 30 24 6.73906-3 4.93544-3 2.44950-3 5.78520-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 58 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 28 5 1.09491-9 3.5139-11 -5.1862-10 -7.7648-11 28 6 3.04537-9 1.2768-12 -1.41495-9 -1.2881-10 28 7 8.64460-9 -2.3185-10 -3.85562-9 -2.2151-10 28 8 2.52116-8 -1.44550-9 -1.05029-8 -4.2680-10 28 9 7.63568-8 -7.27744-9 -2.85942-8 -9.4175-10 28 10 2.45221-7 -3.48171-8 -7.81326-8 -2.66668-9 28 11 8.47965-7 -1.65075-7 -2.14136-7 -9.62251-9 28 12 3.27676-6 -8.03508-7 -6.05632-7 -4.32990-8 28 13 1.44289-5 -3.67419-6 -1.71716-6 6.17345-8 28 14 5.03482-5 3.96124-6 -1.20816-5 1.72926-6 28 15 1.35483-4 5.86723-5 -1.58048-5 -3.02054-5 28 16 1.26093-4 8.83975-5 3.40279-5 -9.77620-6 28 17 1.10365-4 9.72377-5 7.45850-5 4.82846-5 28 18 6.61880-7 6.56843-7 6.46858-7 6.32093-7 29 13 1.28529-7 -1.24545-7 1.16852-7 -1.05979-7 29 14 3.07654-5 -2.22778-5 1.03365-5 -1.11424-6 29 15 3.45942-4 -1.63884-4 3.42197-7 2.74760-5 29 16 7.57264-4 -2.40991-4 -5.71536-5 2.66112-6 29 17 2.14356-3 -3.64693-4 -1.31076-4 -4.97702-5 29 18 5.47646-3 -3.59111-4 -9.10629-5 -2.92644-5 29 19 9.01117-3 1.98561-3 -9.19439-4 -7.59079-5 29 20 4.20256-3 2.50103-3 5.06373-4 -4.57251-4 29 21 2.22741-3 1.83364-3 1.20322-3 5.66409-4 29 22 1.84781-5 1.82109-5 1.76852-5 1.69181-5 30 19 3.03038-3 -1.98942-3 6.92921-4 6.90400-5 30 20 5.77316-3 -2.13524-3 -5.33010-4 3.82173-4 30 21 1.07069-2 -8.34872-4 -1.35841-3 -3.98049-4 30 22 1.27642-2 3.73766-3 -9.96621-4 -1.60209-4 30 23 9.07271-3 5.42053-3 1.30818-3 -5.67997-4 30 24 2.17414-3 1.83075-3 1.26836-3 6.75046-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 59 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 29 5 2.50247-9 7.9507-11 -1.20003-9 -1.7375-10 29 6 6.96207-9 4.9980-11 -3.27665-9 -3.0578-10 29 7 1.96235-8 -3.6112-10 -8.89461-9 -5.6830-10 29 8 5.66553-8 -2.59110-9 -2.42444-8 -1.14997-9 29 9 1.69154-7 -1.33768-8 -6.59629-8 -2.90285-9 29 10 5.32713-7 -6.46301-8 -1.79985-7 -9.35194-9 29 11 1.79760-6 -3.07638-7 -4.91372-7 -3.61066-8 29 12 6.75908-6 -1.50102-6 -1.37451-6 -1.58664-7 29 13 2.84481-5 -7.23860-6 -4.22330-6 -6.75594-7 29 14 1.36255-4 -2.76792-5 -1.32435-5 -1.28120-6 29 15 6.95552-4 -9.96064-5 -5.11044-5 -2.76534-5 29 16 1.14981-3 -8.87874-5 -2.68478-5 -2.68249-5 29 17 2.70430-3 -1.57799-4 5.10791-6 8.20555-6 29 18 4.54157-3 8.31372-4 -5.60093-4 4.95249-5 29 19 4.73859-3 2.81114-3 6.26719-4 -3.83215-4 29 20 9.19812-4 8.08590-4 6.16624-4 3.93695-4 30 17 9.79845-7 -9.70421-7 9.51792-7 -9.24337-7 30 18 1.40824-3 -9.90525-4 4.26892-4 -2.80128-5 30 19 7.67078-3 -2.59283-3 -6.75878-4 3.03736-4 30 20 8.95305-3 -3.16426-4 -7.29010-4 -2.94011-4 30 21 1.10702-2 2.30831-3 -8.54519-4 9.95777-5 30 22 9.33197-3 4.65694-3 2.88767-4 -7.25330-4 30 23 4.65942-3 3.53729-3 1.90591-3 5.39836-4 30 24 1.35212-4 1.29804-4 1.19477-4 1.05150-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 60 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 29 6 2.19787-9 -4.2998-11 -9.7671-10 -8.1912-11 29 7 6.38388-9 -3.5947-10 -2.66347-9 -1.0783-10 29 8 1.92814-8 -1.92344-9 -7.26601-9 -6.2229-11 29 9 6.12730-8 -9.23378-9 -1.98253-8 4.0272-10 29 10 2.09009-7 -4.33966-8 -5.44778-8 2.91140-9 29 11 7.72906-7 -2.03596-7 -1.51603-7 1.43512-8 29 12 3.87082-6 -3.48530-7 9.23435-8 4.74615-7 29 13 1.81384-5 -2.24613-6 -2.70973-7 6.92128-9 29 14 8.67532-5 -1.81004-5 -4.32010-6 -2.35638-6 29 15 4.92246-4 -9.91915-5 -1.85629-5 -9.49281-6 29 16 7.04251-4 4.20676-6 -1.08386-4 3.32818-5 29 17 1.06962-3 3.85248-4 -1.40861-4 -1.18256-4 29 18 1.24885-3 8.44176-4 3.07401-4 -5.58256-5 29 19 3.34766-4 2.99868-4 2.38307-4 1.63954-4 30 16 1.49328-4 -1.20364-4 7.48109-5 -3.04440-5 30 17 9.56134-4 -5.34459-4 7.72539-5 9.76278-5 30 18 3.47191-3 -1.04312-3 -3.17926-4 2.49685-5 30 19 9.92557-3 -4.14753-4 -4.23883-4 -1.06791-4 30 20 7.52620-3 1.14072-3 -6.24246-4 1.24211-4 30 21 7.14106-3 3.08670-3 -2.22547-4 -4.99197-4 30 22 4.86483-3 3.34333-3 1.32818-3 -4.14031-5 30 23 9.03067-4 8.05891-4 6.35306-4 4.31054-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 61 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 29 9 1.47852-9 1.33204-9 1.06666-9 7.3141-10 29 10 6.86185-8 5.45248-8 3.17248-8 8.41768-9 29 11 2.05396-7 1.12193-7 -9.40558-9 -8.08416-8 29 12 7.54411-7 4.14611-7 2.60930-8 -1.14071-7 29 13 3.63239-6 2.29125-6 6.01966-7 -3.80985-7 29 14 1.20545-5 7.99129-6 2.43575-6 -1.48897-6 29 15 3.34503-5 2.59798-5 1.42483-5 2.92147-6 29 16 2.23425-5 2.01920-5 1.63289-5 1.15112-5 29 17 3.01319-6 2.94722-6 2.81822-6 2.63183-6 30 7 1.23787-9 -3.6386-10 -2.3930-10 7.1615-11 30 8 7.13027-9 1.9558-10 4.0402-10 6.0329-10 30 9 2.82888-8 -2.40804-9 -1.23440-9 -3.0379-10 30 10 1.11826-7 -2.30242-8 -1.06968-8 -2.72369-9 30 11 4.53360-7 -1.39959-7 -4.51706-8 4.98608-9 30 12 2.01980-6 -7.26668-7 -1.64347-7 7.08670-8 30 13 9.84586-6 -3.65856-6 -6.89995-7 3.47769-7 30 14 5.37125-5 -1.85985-5 -3.74251-6 8.01173-7 30 15 3.29986-4 -9.08089-5 -2.18713-5 -5.66373-6 30 16 6.18469-4 -1.22975-4 -2.67305-5 -1.37444-5 30 17 1.64306-3 -2.26223-4 -2.42254-5 -4.28908-6 30 18 3.99270-3 -2.89008-4 -1.27131-4 1.59801-5 30 19 7.84258-3 7.58276-4 -5.38804-4 5.59991-5 30 20 4.31979-3 1.85749-3 -1.59114-4 -3.07320-4 30 21 3.34111-3 2.20932-3 7.55951-4 -1.54080-4 30 22 1.09652-3 9.46927-4 6.94228-4 4.12006-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 62 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 30 7 5.67865-9 3.24285-9 2.84113-9 2.38182-9 30 8 3.01189-8 1.30605-8 2.48087-9 -5.67836-9 30 9 9.08256-8 1.58893-8 -1.80159-8 -2.58232-8 30 10 2.89748-7 -5.3838-13 -7.41237-8 -5.31298-8 30 11 9.92483-7 -1.23508-7 -2.28121-7 -9.62972-8 30 12 3.78606-6 -8.08342-7 -6.70224-7 -1.80319-7 30 13 1.67506-5 -3.89992-6 -1.58891-6 3.34188-9 30 14 8.77883-5 -1.70439-5 -2.76318-6 7.78490-7 30 15 4.88465-4 -9.69049-5 -1.72583-5 -4.97956-6 30 16 8.31411-4 -1.22013-4 -4.03974-5 -6.40938-6 30 17 1.96412-3 -1.28014-4 -7.35756-5 -1.07349-5 30 18 4.18783-3 1.03163-4 -1.72470-4 3.03768-5 30 19 5.46924-3 2.07812-3 -3.15457-4 -2.91195-4 30 20 2.27512-3 1.57493-3 6.23203-4 -5.46715-5 30 21 8.52936-4 7.46415-4 5.63595-4 3.53434-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 63 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 30 7 2.29406-9 -1.8911-10 -9.0150-10 -1.9755-11 30 8 7.14016-9 -9.6069-10 -2.45979-9 5.7101-11 30 9 2.35575-8 -4.53850-9 -6.71910-9 4.9760-10 30 10 8.38252-8 -2.11664-8 -1.85537-8 2.62073-9 30 11 3.53505-7 -6.94882-8 -2.52002-8 3.61355-8 30 12 1.88947-6 -5.35273-8 1.12018-7 1.67077-7 30 13 8.40369-6 -1.02949-6 -1.79415-7 -1.76161-7 30 14 4.02674-5 -7.95499-6 -1.65781-6 -8.30290-7 30 15 2.24865-4 -4.47727-5 -7.43259-6 -3.10221-6 30 16 4.00834-4 -6.65996-5 -7.44662-6 -1.91606-6 30 17 9.15387-4 -4.78867-5 -8.32808-5 3.54049-5 30 18 1.35012-3 4.53656-4 -1.75911-4 -1.12337-4 30 19 1.32885-3 9.29438-4 3.91962-4 1.14769-5 30 20 1.21311-4 1.13324-4 9.85367-5 7.90880-5 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 64 continued lr 23 particle emission initl final group constants vs legendre order group group 0 1 2 3 30 6 1.26251-9 1.0466-11 -5.9327-10 -5.7803-11 30 7 3.55790-9 -6.6551-11 -1.61029-9 -1.0340-10 30 8 1.02863-8 -4.8921-10 -4.39137-9 -1.9677-10 30 9 3.07452-8 -2.53071-9 -1.19490-8 -4.3709-10 30 10 9.68749-8 -1.21910-8 -3.26175-8 -1.23912-9 30 11 3.26637-7 -5.77593-8 -8.91077-8 -4.40343-9 30 12 1.22342-6 -2.79936-7 -2.49483-7 -1.90187-8 30 13 5.15779-6 -1.38786-6 -7.33231-7 -9.75411-8 30 14 2.67448-5 -5.68331-6 -1.23632-6 3.59840-7 30 15 1.18753-4 -6.39890-6 -1.98314-5 3.46495-6 30 16 1.20636-4 3.61634-5 -2.62623-5 -1.89264-5 30 17 1.84514-4 1.08580-4 1.82851-5 -2.61795-5 30 18 1.71014-4 1.39662-4 8.96501-5 3.95005-5 30 19 8.22623-6 7.97573-6 7.49193-6 6.80763-6 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 threshold is above highest energy bound for mt 65 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 threshold is above highest energy bound for mt 66 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 threshold is above highest energy bound for mt 67 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 threshold is above highest energy bound for mt 68 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id fls 7/ 1341 xx fls 1 id sed 8/ 1022 id sc 9/ 6999924 xx sc 24 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt 91 continuum inelastic lr 23 particle emission initl final isotropic matrix vs final group group group +0 +1 +2 +3 26 5 2.8202-12 1.2424-11 4.9306-11 3.6488-10 2.69328-9 1.98958-8 26 11 1.21556-7 8.81058-7 5.53723-6 3.51122-5 1.82724-4 2.30264-4 26 17 3.44069-4 3.51058-4 1.90258-4 2.57741-5 3.46290-6 27 5 3.9508-12 2.9142-11 2.1511-10 1.59191-9 1.17503-8 8.68019-8 27 11 6.34825-7 4.64447-6 3.30449-5 2.21489-4 1.24071-3 1.68237-3 27 17 2.71362-3 3.12174-3 2.14206-3 4.73989-4 1.86844-4 4.60373-5 27 23 5.24487-6 1.04229-7 28 5 6.3990-12 4.7201-11 3.4841-10 2.57836-9 1.90316-8 1.40590-7 28 11 1.02821-6 7.52249-6 5.35217-5 3.58738-4 2.00954-3 2.72487-3 28 17 4.39516-3 5.05617-3 3.46942-3 7.67703-4 3.03028-4 8.09235-5 28 23 1.32529-5 1.13209-6 29 4 1.1220-12 8.3054-12 6.1263-11 4.5221-10 3.34652-9 2.47016-8 29 10 1.82476-7 1.33453-6 9.76364-6 6.94673-5 4.65616-4 2.60823-3 29 16 3.53668-3 5.70459-3 6.56254-3 4.50306-3 9.96422-4 3.93309-4 29 22 1.05033-4 1.72013-5 1.55811-6 4.4901-10 30 4 1.6375-12 1.2121-11 8.9406-11 6.5995-10 4.88381-9 3.60488-8 30 10 2.66299-7 1.94758-6 1.42488-5 1.01378-4 6.79505-4 3.80637-3 30 16 5.16132-3 8.32510-3 9.57717-3 6.57162-3 1.45415-3 5.73982-4 30 22 1.53282-4 2.51030-5 2.27429-6 1.25383-9 2.7173-12 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id aes 7/ 6999924 xx aes 6998675 group constants at t=3.000E+02 deg k 2.9s for mf 6 and mt221 free thermal scattering initl final group constants vs legendre order group group 0 1 2 3 1 1 8.05297+0 2.29565-1 4.55177-2 9.32594-2 1 2 3.22866-2 -1.42234-3 -1.58086-3 -3.41801-4 1 3 2.09520-8 -1.60302-8 9.18083-9 -3.80800-9 2 1 7.37012-1 -1.48447-1 -1.98178-2 1.75792-3 2 2 3.96846+0 4.97561-1 6.71077-2 1.11324-1 2 3 5.51787-2 8.36973-3 -1.98290-3 -9.91735-4 3 1 1.09747-4 -8.97152-5 5.90569-5 -3.03233-5 3 2 7.20461-1 -1.78591-1 -1.77644-2 4.61961-3 3 3 4.01735+0 4.90096-1 3.55566-2 1.21106-1 3 4 9.17805-3 4.54883-3 1.10586-3 1.68169-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id aes 7/ 6999924 xx aes 6998675 group constants at t=3.000E+02 deg k 3.5s for mf 6 and mt229 graphite inelastic thermal scattering initl final group constants vs legendre order group group 0 1 2 3 1 1 4.49590-1 -8.53358-2 -9.84655-3 -3.47813-3 1 2 1.30290-2 -2.96738-3 -5.67081-4 -1.27737-4 1 3 5.93509-8 -2.28668-8 2.16469-9 -6.2410-10 2 1 4.25328-1 -1.15222-1 -1.29123-2 -4.17562-3 2 2 2.03405+0 -3.62555-1 -1.55720-1 -3.61339-2 2 3 3.31839-2 -3.68422-3 -3.24133-3 -8.55365-4 3 1 1.02976-2 -4.07349-3 6.50592-4 -1.41048-4 3 2 5.99295-1 -1.66939-1 -2.06487-2 -5.05712-3 3 3 3.14196+0 -1.79574-1 -2.91163-1 -1.04352-1 3 4 7.93510-3 1.77014-3 -7.45842-4 -5.59637-4 xx ans -1 id ans 3/ 481 id ff 4/ 605 id prod 5/ 635 id sig 6/ 991 id aes 7/ 1579 group constants at t=3.000E+02 deg k 5.0s for mf 6 and mt230 graphite elastic thermal scattering initl final group constants vs legendre order group group 0 1 2 3 1 1 2.68777+0 -2.59382-1 -1.12035-1 -6.01740-2 2 2 2.17499+0 7.11028-1 1.30178-1 -1.05244-2 3 3 9.16615-1 5.91768-1 2.80130-1 1.01669-1 xx ans -1 id ans 3/ 409 id ff 4/ 461 id prod 5/ 491 id sig 6/ 847 id yl 7/ 6999924 xx yl 1 id gyl 8/ 849 id eyl 9/ 850 id loca 10/ 851 id flg 11/ 6999924 xx flg 570 id gfl 12/ 1425 group constants at t=3.000E+02 deg k 5.1s for mf 17 and mt 51 inelastic gamma production initl final group constants vs legendre order group group 0 1 2 3 24 7 5.16943-2 0.00000+0 1.38882-2 0.00000+0 25 7 2.46534-1 0.00000+0 2.27157-2 0.00000+0 26 7 3.19914-1 0.00000+0 4.10917-2 0.00000+0 27 7 3.11478-1 0.00000+0 5.30592-2 0.00000+0 28 7 2.15499-1 0.00000+0 3.34494-2 0.00000+0 29 7 1.85024-1 0.00000+0 2.52280-2 0.00000+0 30 7 1.35356-1 0.00000+0 1.64670-2 0.00000+0 xx ans -1 id ans 3/ 409 id ff 4/ 461 id prod 5/ 491 id sig 6/ 847 id yl 7/ 6999924 xx yl 48 id gyl 8/ 898 id eyl 9/ 901 id loca 10/ 904 id flg 11/ 6999924 xx flg 1 id gfl 12/ 908 group constants at t=3.000E+02 deg k 5.1s for mf 16 and mt102 capture gamma production spectrum constant below 9.1200E+03 ev ( 12 groups) initl final isotropic matrix vs final group group group +0 +1 +2 +3 spec 4 2.42424-1 0.00000+0 2.42424-1 5.15152-1 1 prod 1.67189-2 1.44227-3 8.74675-4 5.30349-4 3.22130-4 1.95315-4 7 prod 1.18685-4 7.18403-5 4.36366-5 2.65965-5 1.99310-5 1.13305-5 13 4 3.41791-7 0.00000+0 3.41791-7 7.26305-7 14 4 3.08380-7 0.00000+0 3.08380-7 5.57488-7 9.78195-8 15 4 2.92239-7 0.00000+0 2.92239-7 0.00000+0 6.21008-7 16 4 2.99086-7 0.00000+0 2.99086-7 0.00000+0 6.35557-7 17 4 3.11465-7 0.00000+0 3.11465-7 0.00000+0 6.61862-7 18 4 3.24792-7 2.18660-8 3.46658-7 0.00000+0 7.36649-7 19 5 5.12087-7 5.12087-7 0.00000+0 5.86533-7 5.01652-7 20 5 1.10883-6 1.10883-6 0.00000+0 0.00000+0 2.35627-6 21 5 4.79717-7 3.07055-6 0.00000+0 0.00000+0 3.71854-6 5.36139-8 22 6 6.60647-6 0.00000+0 0.00000+0 0.00000+0 7.01937-6 23 6 5.63778-6 4.42911-6 0.00000+0 0.00000+0 5.73120-6 4.96487-6 24 6 9.05408-6 1.24047-6 3.84934-6 3.96428-6 0.00000+0 5.15187-6 24 12 1.40881-5 25 6 2.37314-5 0.00000+0 0.00000+0 1.52406-6 1.39927-5 8.21470-6 25 12 5.04293-5 26 6 3.43594-5 0.00000+0 0.00000+0 0.00000+0 0.00000+0 1.05571-5 26 12 9.68159-5 27 6 2.31636-5 0.00000+0 0.00000+0 0.00000+0 0.00000+0 0.00000+0 27 12 7.23863-5 28 6 2.28538-5 0.00000+0 0.00000+0 0.00000+0 0.00000+0 0.00000+0 28 12 7.14181-5 29 6 4.02510-5 0.00000+0 0.00000+0 0.00000+0 0.00000+0 0.00000+0 29 12 1.25784-4 30 6 6.11828-5 0.00000+0 0.00000+0 0.00000+0 0.00000+0 0.00000+0 30 12 1.45240-4 xx ans -1 xx unr -1 usage13999411/ 7000000 5.2s ***************************************************************************** moder...change the mode of an endf/b tape or njoy output tape 5.2s input unit (+ for coded, - for bb) ... -23 output unit (+ for coded, - for bb) .. 25 tape label -------------------------------------- pendf tape for c-nat from endf/b tape 511 using endf-5 format 5.6s *****************************************************************************