ESS-Estia/Estia-MCNP
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Merge branch 'master' into mcstas_sources

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glavic_a
2018-10-06 16:19:26 +02:00
parent 5af839abf2 93a67718c2
commit 723b930049
21 changed files with 870 additions and 708 deletions
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2
crun.i
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@@ -1,2 +1,2 @@
CONTINUE
nps 1e7
nps 1e10

728
e2-estia.i
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@@ -2,9 +2,8 @@ Input File ESTIA
c -------------------------------------------------------
c --------------- CELL CARDS --------------------------
c -------------------------------------------------------
read file=e2-ess_cells.i echo
read file=geometry/ess_cells.i echo
c tallies
700 0 -700
701 9 2.45e-05 -701
702 0 -702
703 0 -703
@@ -14,453 +13,19 @@ c tallies
707 0 -707
708 0 -708
709 0 -709
c elliptic guide
c NBOA beam
1001 9 2.45e-05 1100 -1101 -1301 -1302 -1303 -1304
1002 9 2.45e-05 1101 -1102 (-1321:-1322) -1311 -1501 -1502
1003 9 2.45e-05 1102 -1103 (-1331:-1332) -1311 -1501 -1502
1004 9 2.45e-05 1103 -1104 (-1341:-1342) -1311 -1501 -1502
1005 9 2.45e-05 1104 -1105 (-1351:-1352) -1311 -1501 -1502
1006 9 2.45e-05 1105 -1106 (-1361:-1362) -1311 -1502 -1501
1007 9 2.45e-05 1106 -1107 (-1371:-1372) -1311 -1502 -1501
1008 9 2.45e-05 1107 -1108 (-1381:-1382) -1311 -1502 -1501
1011 9 2.45e-05 1100 -1101 #(1201 1202 1203 1204) 1305 1306 1307 1308
1012 9 2.45e-05 ((1101 -1115 1213 -1507 -1508)
:(1115 -1105 1214 -1509 -1510)) #(1211 -1503 -1504)
1013 9 2.45e-05 1105 -1107 #(1212 -1505 -1506) 1214 -1509 -1510
1014 9 2.45e-05 ((1117 -1108 1213 -1507 -1508)
:(1107 -1117 1214 -1509 -1510)
) #(1211 -1503 -1504)
c NBOA outside
1021 14 -8.92 (1100 -1101 1201 1202 1203 1204
(1301 : 1302 : 1303 : 1304))
1022 14 -8.92 (1101 -1103 1211 -1503 -1504)
(1311:1501:1502)
1023 14 -8.92 (1103 -1104 1211 -1503 -1504)
(1311:1501:1502)
1024 14 -8.92 (1104 -1105 1211 -1503 -1504)
(1311:1501:1502)
1025 14 -8.92 (1105 -1107 1212 -1505 -1506)
(1311:1501:1502)
1026 14 -8.92 (1107 -1108 1211 -1504 -1503)
(1311:1501:1502)
c NBOA wedges
1032 14 -8.92 ((1101 -1102 1321 1322)
:(1102 -1103 1331 1332)
) -1502 -1311
1033 14 -8.92 1103 -1104 1341 1342 -1502 -1311
1034 14 -8.92 1104 -1105 1351 1352 -1502 -1311
1035 14 -8.92 ((1105 -1106 1361 1362)
:(1106 -1107 1371 1372)
) -1502 -1311
1036 14 -8.92 1107 -1108 1381 1382 -1502 -1311
c Al window and He in front of NBOA
1041 5 0.0582256 61 -1110 1305 1306 1307 1308
1042 9 2.45e-05 1110 -1100 1305 1306 1307 1308
c Al window and He behind NBOA
1051 9 2.45e-05 1108 -1118 1213 -1508 -1507
1052 5 0.0582256 1118 -64 1213 -1508 -1507
c extended cut-out in reflector
1135 0 -61 3 58 1205 1206 1207 1208 #700
1136 5 0.0582256 -61 3 #(41 -42) 58 1201 1202 1203 1204 #700 #1135
c split of wedge of monolith components for increased importance
1236 5 0.0582256 ( 142 -332 -556 325 ) ( -1201 : -1202 : -1203 : -1204 : -58)
( -39 : 40 : -41 : 42 ) -61 3 21 -46 45 -44 43
dxc1:n=0.001
1240 121 0.0862739 ( 142 -332 -556 325 )
( -43 : -45 : 46 : 44 ) -58 ( -53 : 54 : 55 )
dxc1:n=0.001 dxc2:n=0.1 dxc3:n=0.1 dxc4:n=0.1
1241 121 0.0862739 ( 142 -332 -556 325 ) ( -1201 : -1202 : -1203 : -1204 )
-61 58 ( -43 : -45 : 46 : 44 )
dxc1:n=0.1 dxc2:n=0.1 dxc3:n=0.1 dxc4:n=0.1
c partitioned air in bunker
1255 4 -1.2E-3 3 -68 -2 -101 66 -67 64 112
( 329 : 4615 : -342 : 353 : 4100 )
( -66 : 4615 : -342 : 353 : -3111 )
#(-1605 -1623) #(-1622 1623 -1624)
#(-1639 1624 -1637) #(-1658 1637 -1660)
#3137
1256 4 -1.2E-3 ( -329 -4615 342 -353 ) 64 -3110
#( 2100 -2101 2201 2202 2203 2204 )
1257 4 -1.2E-3 (( -329 -4615 342 -353 ) 3110 -4805
#((3110 -3111 -3541)
:(3111 -4100 -3531)))
#(-3440 -3404 3446)
#(-3441 -3326 3446)
#(-3442 -3326 3446)
1258 4 -1.2E-3 (( 66 3111 329 #(4811 -4812 -4820) )
:( -329 -4615 4805
#( 5101 4604 5501 5502 -5505 5504 ) )
#((4811 -4812 -4820)
:(-4814 -4815 -4602 4813 4805 -4101)
:(4812 -4602 ((4601 -4603 -4818 -4819):(4603 -4604 -4818)))
:(4602 4611 4612 4613 4614 -4615))
) 342 -353 -68 #4201 #4202 #4203 #4204 #4131
c part around inserts E01,E02,E03
1489 54 0.0833854 109 556 -334 325 -326 -64 330 3
( -153 : 154 : 159 ) -329
1490 54 0.0833854 -556 -1107
( -336 : -330 : -341 : -459 : 64 : 460 : 342 )
( -348 : -330 : -353 : -459 : 64 : 460 : 354 )
-334 -329 -326 325 -64 330 3 ( -153 : 154 : 159 )
( -330 : -569 : -459 : 64 : 460 : 570 : 564 )
1491 54 0.0833854 -556 1107
( -336 : -330 : -341 : -459 : 64 : 460 : 342 )
( -348 : -330 : -353 : -459 : 64 : 460 : 354 )
-334 -329 -326 325 -64 330 3 ( -153 : 154 : 159 )
( -330 : -569 : -459 : 64 : 460 : 570 : 564 )
1494 54 0.0833854 -556 -1103
( -336 : -61 : -337 : -575 : 457 : 330 : 338 : ( 575 565 -457 ) )
( -348 : -61 : -349 : -575 : 457 : 330 : 350 : ( 575 554 -457 ) )
( -153 : 154 : 159 ) 3 61 -330 -326 325 335 -332
( -61 : -565 : -1001 : 457 : 330 : 566 : 349 : 564 : ( -457 349 575 ) )
1495 54 0.0833854 -556 1103
( -336 : -61 : -337 : -575 : 457 : 330 : 338 : ( 575 565 -457 ) )
( -348 : -61 : -349 : -575 : 457 : 330 : 350 : ( 575 554 -457 ) )
( -153 : 154 : 159 ) 3 61 -330 -326 325 335 -332
( -61 : -565 : -1001 : 457 : 330 : 566 : 564 : ( -457 349 575 ) )
1586 3 0.0876276 ( -554 : -575 : 457 ) -330 #589
-458 -345 351 -352 1103 348
1588 3 0.0876276 -64 -332 459 355 -356 330
348 1107 #589
1591 3 0.0876276 ( -349 : -1001 : 457 ) -330
-458 1000 567 -568 -564 -2 1103
(-1101 : -1213 : 1508 : 1507)
1593 3 0.0876276 -64 -332 459 571 -572 330 -564 -2 1107
( -1213 : 1508 : 1507)
#(1107 -1117 1214 -1509 -1510)
1596 3 0.0876276 ( -565 : -575 : 457 ) -330
-458 -345 339 -340 1103 336
1598 3 0.0876276 -64 -332 459 343 -344 330 336 1107
c SKADI in-bunker components
c collimators
1901 0 64 3 ((-1604 -1623):(-1622 1623 -1624)
:(-1639 1624 -1637):(-1658 1637 -1660))
#1940 #1945 #1957 #1958 #1963 #1967 #1982 #1983
1940 5 0.0582256 1604 -1605 -1623 64 3
1945 73 0.0844385 ( -1594 : 1595 : -1615 : 1616 ) -1607 1606 -1618 1617 -1599
1598 1614
1957 0 ( -1690 : 1691 ) ( -1647 : 1646 : 1645 ) ( -1643 : 1644 : 1645 ) -1637
1636 -1638 ( -1648 : -1653 : -1598 : -1650 : 1599 : 1654 : 1649 )
1958 5 0.0582256 1638 -1639 -1641 1640
1963 73 0.0844385 ( 1595 : -1594 : -1651 : 1652 ) -1649 1648 -1654 1653 1598
-1599 1650
1967 5 0.0582256 1657 -1658 -1660 1659
1982 73 0.0844385 -1622 ( -1631 : -1598 : -1632 : 1633 : 1599 )
-1624 1623
1983 73 0.0844385 -1638 ( -1650 : -1598 : -1653 : 1654 : 1599 )
-1691 1690
c
c BBG beam top/beam bottom/outside
2001 9 2.45e-05 2100 -2101 -2301 -2302 -2303 -2304 3 #701
2011 9 2.45e-05 2100 -2101 -2301 -2302 -2305 -2306 3
2021 14 -8.92 2100 -2101 2201 2202 2203 2204 3
(2301:2302:2303:2306:(2304 2305))
c NFGA beam top
3001 0 3100 -3101 -3301 -3311 -3501 -3502
3002 0 3101 -3102 -3302 -3312 -3501 -3502
3003 0 3102 -3103 -3302 -3313 -3501 -3502
3004 0 3103 -3104 -3302 -3314 -3501 -3502
3005 0 3104 -3105 -3302 -3315 -3501 -3502
3006 0 3105 -3106 -3302 -3316 -3501 -3502
3007 0 3106 -3107 -3302 -3317 -3501 -3502
c NFGA beam bottom
3011 0 3100 -3101 -3301 -3321 -3501 -3502
3012 0 3101 -3102 -3302 -3322 -3501 -3502
3013 0 3102 -3103 -3302 -3323 -3501 -3502
3014 0 3103 -3104 -3302 -3324 -3501 -3502
3015 0 3104 -3105 -3302 -3325 -3501 -3502
3016 0 3105 -3106 -3302 -3326 -3501 -3502
3017 0 3106 -3107 -3302 -3327 -3501 -3502
c NFGA outside
3021 5 0.0582256 3100 -3101 -3503 -3504 3201
#(-3301 #(3311 3321) -3501 -3502)
3022 5 0.0582256 3101 -3102 -3503 -3504 3202
#(-3302 #(3312 3322) -3501 -3502)
3023 5 0.0582256 3102 -3103 -3503 -3504 3202
#(-3302 #(3313 3323) -3501 -3502)
3024 5 0.0582256 3103 -3104 -3503 -3504 3202
#(-3302 #(3314 3324) -3501 -3502)
3025 5 0.0582256 3104 -3105 -3503 -3504 3202
#(-3302 #(3315 3325) -3501 -3502)
3026 5 0.0582256 3105 -3106 -3503 -3504 3202
#(-3302 #(3316 3326) -3501 -3502)
3027 5 0.0582256 3106 -3107 -3503 -3504 3202
#(-3302 #(3317 3327) -3501 -3502)
c NFSA Vaccum tank and connection to collimator
3122 0 ((((3112 -3131 -3522 3)
:(3131 -4805 -3532 3)) #(
(3100 -3101 3201 -3504 -3503)
:(3101 -3107 3202 -3504 -3503)))
:(-3434 -3404 -3541)
:(-3435 -3326 -3541)
:(-3436 -3326 -3541))
#702 #3151
3123 5 0.0582256 ((3110 -3111 3522 -3521)
:(3110 -3112 -3521)
:(3113 -3111 3532 -3521)
:(3111 -4805 3532 -3531)) 3
#(-3431 -3326)
#(-3432 -3326)
#(-3433 -3326)
3124 0 3446 3541 3437 -3440 -3326 #3131 #3134
3125 0 3446 3541 3438 -3441 -3326 #3132 #3135
3126 0 3446 3541 3439 -3442 -3326 #3133 #3136
3131 5 0.0582256 3434 -3431 3522 3443 -3326
3132 5 0.0582256 3435 -3432 3522 3443 -3326
3133 5 0.0582256 3436 -3433 3522 3443 -3326
3134 71 0.0843223 ((-3431 3446 -3443)
:(-3440 3444 -3443)
:(-3440 3446 -3445)) 3434
3135 71 0.0843223 ((-3432 3446 -3443)
:(-3441 3444 -3443)
:(-3441 3446 -3445)) 3435
3136 71 0.0843223 ((-3433 3446 -3443)
:(-3442 3444 -3443)
:(-3442 3446 -3445)) 3436
3137 49 0.074981 3421 3422 -3423 3424 3425 3426
c B-Al plate
3141 10 -2.7 3131 -3113 3532 -3522 3
c MirroBor outside vessel
3142 17 -1.36 3110 -3111 3521 -3541 3
#(-3431 -3326)
#(-3432 -3326)
#(-3433 -3326)
c NFSA Guide support
3151 71 0.0843223 (3120 -3121 (3401 3402 3403 3404 3)
#(3411 3412 -3413 3414))
:(3446 -3404 -3437)
:(3446 -1000 -3438)
:(3446 -1000 -3439)
c -----Collimators----
c CPC1 - Collimator before VS
4001 0 -4301 -4302 -4303 -4304 4805 -4101 -2
4010 10 -2.7 -4814 -4815 -4602 4813 4805 -4807 #4001
4011 14 -8.92 -4814 -4815 -4602 4813 4807 4819 #4001
4012 14 -8.92 4201 4202 -4705 4704 -4708 -4101 #4001
c Vacuum tank around VS
4101 0 (4705 4616 4617 4610 4619 -4618) #4121
4102 0 (4704 -4705 ((-4706 -4707 -4708 -4603):(4603 -4702)))
#(-4101 4704 4201 4202)
#(5604 -5601 -5611)
#5701 #5702 #5711 #5712 #5751 #5761 #4121
#5021 #703 #704
4103 0 (4703 -4704 -4701)
#(-4101 4704 4201 4202)
#5711 #5712 #5721 #5722 #5731
4104 0 (4603 -4604 4702 -5301 -5302 -5303 -5304)
4105 0 (5604 -5601 -5612)
#(5604 -5601 (5612:(5613 5616):(5614 5615)
:(5614 5616):(-5614 -5618):(-5616 5617)) -5611)
#5701 #5702
4111 5 0.0582256 ((4602 4611 4612 4613 4614 -4615):
(4705 -4602 ((4601 -4603 -4818 -4819)
:(4603 -4604 -4818))))
#(4616 4617 4610 4619 -4618)
4112 5 0.0582256 (4704 -4705 ((4601 -4603 -4818 -4819):(4603 -4604 -4818)))
#((-4706 -4707 -4708 -4603):(4603 -4702))
#(-5301 -5302 -5303 -5304)
#(-4301 -4302 -4303 -4304)
4113 5 0.0582256 (4812 -4704 ((4601 -4603 -4818 -4819):(4603 -4604 -4818)))
#(4703 -4704 -4701)
4114 5 0.0582256 4811 -4812 -4820 #(4703 -4704 -4701)
c chopper disk
4121 5 0.0582256 -4621 4622 -4623
c chopper spindle
4131 3 0.0876276 -4612 4631 -4632 -4604
c Concrete base (5% B4C)
4201 16 -2.4 (4801 4802 4804 -4811 4805 4806)
4202 16 -2.4 (4801 4802 4811 -4812 4805 4806)
#(-4820)
#(-4817 -4814 -4815)
4203 16 -2.4 (4801 4802 4812 -4813 4805 4806)
#(-4818 -4819)
#(-4816 -4814 -4815)
4204 16 -2.4 (4801 4802 4813 4803 4805 4806)
#(-4818 -4819)
#(-4814 -4815)
c CPC2 with Cu nose
5001 0 ((5101 4604 -5102 -5301 -5302 -5303 -5304 3)
:(5102 -7100 -5532 3)) #705
5002 5 0.0582256 (5102 -7100 5532 -5531 3)
5021 14 -8.92 5401 5402 -5403 5404 5405 5406
#(-5301 -5302 -5303 -5304)
5022 14 -8.92 5101 4604 -5102 5501 5502 -4602 5504 3
#5001
5023 71 0.0843223 5101 4604 -5102 5501 5502 4602 -5505 3
#5001
c VS Lead shielding (FIX MATERIALS)
c boral part top and bottom
5601 10 -2.7 5602 -5601 (5612:(5613 5616):(5614 5615)
:(5614 5616):(-5614 -5618):(-5616 5617))
-5611
5602 10 -2.7 5604 -5603 (5612:(5613 5616):(5614 5615)
:(5614 5616):(-5614 -5618):(-5616 5617))
-5611
c lead part
5603 13 -11.34 5603 -5602 (5612
:(5613 5616):(5614 5615)
:(5614 5616)
:(-5614 -5618):(-5616 5617))
-5611
c VS holder stands
5701 5 0.0582256 -5701 5704 -5703
5702 5 0.0582256 -5702 5704 -5703
c simplified model of stages (hollow cylinders)
c x-stages
5711 5 0.0582256 5732 -5731 -5711
#(5742 -5741 -5721)
5712 5 0.0582256 5732 -5731 -5712
#(5742 -5741 -5722)
c z-stages
5721 5 0.0582256 5733 -5732 -5713
#(5744 -5743 -5723)
5722 5 0.0582256 5733 -5732 -5714
#(5744 -5743 -5724)
c omega-stage
5731 5 0.0582256 5734 -5733 -5715
#(5746 -5745 -5725)
c B4C blades
5751 20 -2.3 ((-5751 -5754 5755)
:(-5752 -5755 5703)) -5753 5756 -5757
5761 20 -2.3 ((-5762 -5764 5765)
:(-5763 -5765 5703)) -5761 -5766 5767
c -----Wall Cut-Out---
6001 4 -1.2E-3 ((68 -6100 -6201 -6202 -6203 -6204)
:(6100 -6101 -6301 -6302 -6303 -6304)) 3
#(-5102 5501 5502 -5505 5504)
#(5102 -7100 -5531)
6002 4 -1.2E-3 ((6101 -6102 -6401 -6402 -6403 -6404)
:(6102 -6103 -6501 -6502 -6503 -6504)) 3
#(5102 -7100 -5531)
#((7100 -7102 7201 7202 7203 7204)
:(7102 -7103 7205 7206 7207 7208))
#(7103 -6103 -8921)
6003 4 -1.2E-3 (6103 -72 -6601 -6602 -6603 -6604 -6605) 3
#(7103 8405 -8921)
#(7102 -7103 7205 7206 7207 7208)
#(-8405 8401 8402 8403 8404)
c Vacuum before and inside Selene Guide 1
6101 0 ((7103 8405 -8922 3)
:(-8405 8406 -8411 8412 8413 8402 3))
#706 #8311 #8411 #8412 #8413
6102 5 0.0582256 (7103 8405 8922 -8921 3)
c Vaccum after Selene 1, until and inside Selen 2
6111 0 ((-8406 -8100 -8932 3)
:(8100 -8101 -8501 -8502 -8503 -8504 3)
:(8101 -8121 -8932 3)
:(8121 -8122 8601 -8611 -8612 -8613 3))
#707 #8511
6112 5 0.0582256 (-8406 -8121 8932 -8931 3 #(8100 -8101))
c -----Bunker Wall Collimator (BWC)-----
7001 0 (7100 -7103 -7301 -7302 -7303 -7304 3)
#(7101 -7401 7402)
7021 14 -8.92 7100 -7101 7201 7202 7203 7204 3
#(7100 -7101 -7301 -7302 -7303 -7304)
7022 14 -8.92 7101 -7111 7201 7202 7203 7204 3
#(7101 -7111 -7301 -7302 -7303 7401)
#(7101 -7111 -7301 -7302 -7402 -7304)
7023 14 -8.92 7111 -7112 7201 7202 7203 7204 3 7110
7024 14 -8.92 7111 -7112 -7110 3
#(7111 -7112 -7301 -7302 -7303 7401)
#(7111 -7112 -7301 -7302 -7402 -7304)
7025 14 -8.92 7112 -7102 7201 7202 7203 7204 3
#(7112 -7103 -7301 -7302 -7303 7401)
#(7112 -7103 -7301 -7302 -7402 -7304)
7026 14 -8.92 7102 -7103 7205 7206 7207 7208 3
#(7102 -7103 -7301 -7302 -7303 7401)
#(7102 -7103 -7301 -7302 -7402 -7304)
c ---- Outside of Bunker
c -- Shielding Walls --
c concrete floor
8001 49 0.074981 ((68 -72 8209 -70 -104 -2)
:(72 -8101 8209 -59 8201 8202)
:(8101 -8709 8209 -59 8301 8302)) 3
c ceiling outside
8002 49 0.074981 ( 72 -8101 8207 8203 8201 8202)
c left outer wall (E01)
8003 49 0.074981 ( 72 -8100 8201 -8205 59 -8207 3)
c Selene 1/2 separator
8004 200 -3.9 (8100 -8101 8201 8202 59 -8207 3)
#(8100 -8101 -8221 -8222 -8223 -8224)
c Optical cave
8005 200 -3.9 (8101 -8709 59 8301 8302 8303 3)
#(8101 -8709 -8311 -8312 -8313 -8314)
c air
8008 4 -1.2E-3 (72 -8100 -8211 -8212 -8213 -8214 3)
#(-8406 -8931)
#(-8405 8406 8401 8402 8403 8404)
8009 4 -1.2E-3 (8101 -8709 -8311 -8312 -8313 -8314 3)
#(8121 -8122 8601 8602 8603 8604)
#(-8121 -8931)
#707
c B4C concrete inner layers
8011 16 -2.4 (8211 8215 -8213 -8214 72 -8100 3)
8012 16 -2.4 (8205 8202 8213 -8218 72 -8100 3)
8013 16 -2.4 (8212 -8216 -8213 -8214 8111 -8100 3)
8014 16 -2.4 (8202 -8206 8217 -8213 -8214 8111 -8100 3)
c Steel middle layers
8020 71 0.0843223 (8212 8202 -8213 -8214 72 -8111 3)
8021 71 0.0843223 (-8215 8205 -8213 -8214 72 -8100 3)
8022 71 0.0843223 (8205 8202 8218 -8207 72 -8100 3)
8023 71 0.0843223 (8216 8202 (-8217:8206) -8213 -8214 8111 -8100 3)
c
c Selene 1 carrier
8301 18 -2.4 -8405 8406 ((8401 8402 8403 8404)
#(-8411 8402 8412 8413))
c Selene 1 glass (change material!!)
8311 12 -2.51 -8405 8406 -8903 -8904 -8518
#(-8901 -8902) #(-8515 -8517) 3
c Copper in wall
8401 14 -8.92 (8100 -8101 -8221 -8222 -8223 -8224 3)
#(8100 -8101 -8501 -8502 -8503 -8504)
c Copper in Selene 1
8411 14 -8.92 (8111 -8112 8518 8402 8412 8413 3)
:(8111 -8112 8511 8402 -8901 3)
:(8111 -8112 8519 8402 -8515 -8517 3)
8412 14 -8.92 (8113 -8114 8518 8402 8412 8413 3)
:(8113 -8114 8512 8402 -8901 3)
:(8113 -8114 8519 8402 -8515 -8517 3)
8413 14 -8.92 (8115 -8116 8518 8402 8412 8413 3)
:(8115 -8116 8513 8402 -8901 3)
:(8115 -8116 8519 8402 -8515 -8517 3)
c Selene 2 carrier
8501 18 -2.4 (8121 -8122 8601 8602 8603 8604 3)
#(8121 -8122 8601 -8611 -8612 -8613 3)
c Selene 2 glass (change material!!)
8511 12 -2.51 8121 -8122 -8913 -8914 8915
#(-8911 -8912) #(-8515 -8517) 3
c Air outside the guide shielding
8601 4 -1.2E-3 72 -8709 -104 -8201 8203 8204
#708
8602 4 -1.2E-3 ((112 -8202)
:(8202 -8302 8101)) 72 -8709 8203 8204
#709
c Experimental cave
c First largest area: up-stream/down-stream/roof/floor/walls
c then cut corner and add extended roof
8701 49 0.074981 ((8709 8710 8701 8703 8706 8707 8708 8709 8710 (8704 : 8705))
:(8709 8710 8702 8703 8711 8712))
#((-8809 -8810 -8801 -8803 -8806 -8807 -8808 -8809 -8810
(-8804 : -8805))
:(-8809 -8810 -8802 -8803 -8811 -8812)
:(-8311 -8312 8709 8809 -8313 -8803))
#(( 72 -8101 8201 8202 8203 8204 3)
:(8101 -8709 8301 8302 8303 8304 3))
8702 4 -1.2E-3 ((-8809 -8810 -8801 -8803 -8806 -8807 -8808 -8809 -8810
(-8804 : -8805))
:(-8809 -8810 -8802 -8803 -8811 -8812)
:(-8311 -8312 8709 8809 -8313 -8803)) 3
#6111 #8501 #8511
710 0 -710
read file=geometry/estia_inbunker.i echo
read file=geometry/estia_guides.i echo
read file=geometry/estia_cave.i echo
c ++++++++++++++++++++++ END ++++++++++++++++++++++++++++
c -------------------------------------------------------
c --------------- SURFACE CARDS -------------------------
c -------------------------------------------------------
c modified ESS geometry
read file=e2-ess_surfaces.i echo
read file=geometry/ess_surfaces.i echo
c tallies
700 s 117.0 -155.00 13.5 3.0
c 700 s 117.0 -155.00 13.5 3.0
701 1 s 542.0 -6.3 6.3 3.0
702 1 s 1010 -0.8 0 5.0
703 1 s 1082 -25.0 0 5.0
@@ -470,209 +35,11 @@ c tallies
707 1 s 2190 3.5 0 12.0
708 s 730 -1380 0 30.0
709 s 1020 -1170 0 30.0
710 s 1328 -1756 -13 12.0
c Estia geometry
read file=e2-estia_surfaces.i echo
read file=geometry/estia_surfaces.i echo
c -------------------------------------------------------
c --------------- MATERIAL CARDS ------------------------
c -------------------------------------------------------
c
c Material : Stainless304 rho=0.0876276
m3 6000.70c 0.00031864 14028.70c 0.00170336 15031.70c 6.95038e-05
16032.70c 4.4752e-05 24000.50c 0.0174813 25055.70c 0.00174159
26054.70c 0.00338 26056.70c 0.053455 26057.70c 0.00128218
28000.50c 0.00815128 pnlib=70u
mx3:h 6012.70h j j j j j j j j j
c
C NIST STANDARD DRY AIR rho=1.2E-3
m4 06000.70C 0.000150190
07014.70C 0.781575139
07015.70C 0.002855327
08016.70C 0.210748199
18036.70C 0.000015718
18038.70C 0.000002952
18040.70C 0.004652475
c Material : Aluminium rho=0.0582256
m5 13027.70c 0.054381 12024.70c 0.00207 12025.70c 0.0002621
12026.70c 0.0002885 14028.70c 0.000217 22048.70c 8.7e-05
24052.24c 7.8e-05 24053.24c 1e-05 25055.70c 0.000408 26056.70c
0.000214 26057.70c 5e-06 29063.70c 4e-05 29065.70c 2e-05
30000.70c 0.000145 pnlib=70u
mt5 al27.10t
c
c polyethylene PSI -0.94 g/cm3
c m6 1001.70c -0.1437 6000.70c -0.8563
c mt6 poly.01t
c mx6:h j 6012.70h
c borated polyethylene PSI (5% B4C) -0.95 g/cm3
c m7 1001.70c -0.1183 5010.70c -0.0268 5011.70c -0.1077 6000.70c -0.7472
c mx7:h j j j 6012.70h
c mt7 poly.01t
c Material : helium rho=2.45e-05
c PSI Borax for HE-shutter
c EP + B4C 50%-50% (1.8 g/cc)
c m8 5010.70c -0.0782 5011.70c -0.3133 6000.70c -0.4481 7015.70c -0.132 &
c 1001.70c -0.0284
c mx8:h j j 6012.70h j j
c mt8 lwtr.01t
c Helium
m9 2004.70c 2.45e-05 pnlib=70u
c
c BorAL 1100 alloy (2.7 g/cc)
m10 5010.70c -0.04 5011.70c -0.01 13027.70c -0.9288 &
14000.70c -0.01 25055.70c -5.0E-3 26000.50c -5.0E-3 &
29000.50c -1.0E-3 30000.70c -2.0E-4
c
c Material : H2O rho=0.100283
m11 1001.70c 0.0668456 1002.70c 1.003e-05 8016.70c 0.0334278
pnlib=70u
mt11 lwtr.01t
c
c bor-float glass 13% B2O3 2.51 g/cm3
m12 8016.70c -0.4078 11023.70c -0.096441 14000.70c -0.336563 &
20000.60c -0.107205 5010.70c -0.0104 5011.70c -0.0416
c lead (11.34 g/cm3)
m13 82000.50c 1.0
c Copper density=8.92 g/cm3
m14 29000.50c 1.0
c PSI Beton Ba/Fe/Bor 4.9 (4.9% B4C) (4.99 g/cm3)
c m15 1001.70c -3.62e-3
c 6000.70c -5.23e-3
c 8016.70c -0.08511
c 12000.60c -7e-4
c 13027.70c -4.71e-3
c 14000.70c -1.983e-2
c 16000.70c -1.368e-2
c 20000.60c -2.425e-2
c 24000.50c -0.13896
c 25055.70c -1.544e-2
c 26000.50c -0.52608
c 27059.50c -0.007
c 28000.50c -7.72e-2
c 56138.50c -3.985e-2
c 5010.70c -7.66e-3
c 5011.70c -3.068e-2
c mx15:h j 6012.70h j j j j j j j j j j j j j j
c mt15 poly.01t
c Boron Concrete (5% B4C)(2.4 g/cc)
m16 1001.70c -6.09e-3
6000.70c -0.1726
8016.70c -0.404
12000.60c -0.0322
13027.70c -0.0115
14000.70c -3.3906e-2
20000.60c -0.3222
26054.70c -4.22e-4
26056.70c -6.92e-3
26057.70c -1.62e-4
5010.70c -2e-3
5011.70c -8e-3
mx16:h j 6012.70h j j j j j j j j j j
mt16 lwtr.01t
c Mirrobor (1.36 g/cm3)
m17 1001.70c -0.01
6000.70c -0.3
8016.70c -0.05
5010.70c -0.127
5011.70c -0.513
mx17:h j 6012.70h j j j
mt17 poly.01t
c Mineral cast 2% Boron (2.4 g/cm3)
m18 1001.70c -0.05
6000.70c -0.26
8016.70c -0.2325
12000.60c -0.007
13027.70c -0.023
14000.70c -0.38
26000.50c -0.02
28000.50c -0.004
5010.70c -0.0047
5011.70c -0.0188
mx18:h j 6012.70h j j j j j j j j
mt18 poly.01t
c
c B4C sintered (2.3 g/cc)
m20 5010.70c -0.1841 5011.70c -0.74345 8016.70c -0.07245
c
c Material : Concrete rho=0.074981
m49 1001.70c 0.00776555 1002.70c 1.16501e-06 8016.70c 0.0438499
11023.70c 0.00104778 12000.60c 0.000148662 13027.70c 0.00238815
14028.70c 0.0158026 16032.70c 5.63433e-05 19000.60c 0.000693104
20000.60c 0.00291501 26054.70c 1.84504e-05 26056.70c
0.000286826 26057.70c 6.5671e-06 26058.70c 8.75613e-07
pnlib=70u
mt49 lwtr.01t
c
c Material : CastIron rho=0.0833854
m54 6000.70c 0.00636 14028.70c 0.0051404 25055.70c 0.000386
26054.70c 0.00419 26056.70c 0.065789 26057.70c 0.00152
pnlib=70u
mx54:h 6012.70h j j j j j
c
c Material : Steel71 rho=0.0843223
m71 6000.70c 0.000101187 14028.70c 0.000295128 24000.50c
0.000168645 25055.70c 0.000505934 26054.70c 0.0048414 26056.70c
0.0759996 26057.70c 0.00175516 26058.70c 0.00023358 28058.70c
0.000172218 28060.70c 6.6335e-05 28061.70c 2.88126e-06
28062.70c 9.19272e-06 28064.70c 2.33992e-06 29063.70c
0.000116651 29065.70c 5.19931e-05 pnlib=70u
mx71:h 6012.70h j j j j j j j j j j j j j j
c
c Material : Copper rho=0.0844385
c (rho=8.91001 g/cc)
m73 29063.70c 0.0583892 29065.70c 0.0260493 pnlib=70u
c
c Material : Be5H2O rho=0.122325
m118 1001.70c 0.00334228 4009.70c 0.117311 8016.70c 0.00167114
pnlib=70u
mx118:h j model j
mt118 be.60t lwtr.01t
c
c Material : Be10H2O rho=0.121164
m119 1001.70c 0.00668456 4009.70c 0.111137 8016.70c 0.00334278
pnlib=70u
c
mx119:h j model j
mt119 be.60t lwtr.01t
c
c Material : Tungsten_15.1g rho=0.0494621
m120 74182.70c 0.0131232 74183.70c 0.00708653 74184.70c 0.0151734
74186.70c 0.014079 pnlib=70u
c
c Material : Iron_10H2O rho=0.0862739
m121 1001.70c 0.00668924 8016.70c 0.00334462 26054.70c 0.00445623
26056.70c 0.0699533 26057.70c 0.00161553 26058.70c 0.000214997
pnlib=70u
mt121 lwtr.01t
c
c Material : CarstonConc rho=0.0824808
m122 1001.70c 0.0229186 1002.70c 1.23628e-06 5010.70c 0.0001187
5011.70c 0.00047781 6000.70c 0.00623398 8016.70c 0.0406466
14028.70c 0.0049816 14029.70c 0.0002529 14030.70c 0.00016675
20040.70c 0.0062902 20042.70c 4.1981e-05 20043.70c 8.759e-06
20044.70c 0.0001353 20046.70c 2.5956e-07 20048.70c 1.21339e-05
26054.70c 1.1341e-05 26056.70c 0.00017803 26057.70c 4.1115e-06
26058.70c 5.47166e-07 pnlib=70u
mx122:h j j j j 6012.70h j j j j j j j j j
j j j j j
mt122 poly.01t
c
c Material : ParaOrtho%0.5 rho=0.041975
m123 1001.70c 0.000209875 1005.60c 0.0417651 pnlib=70u
mx123:h j 1001.70h
mt123 hpara.10t hortho.10t
c
c Material : ESS Magnadense Heavy Concrete (density -3.9g/cm³)
m200 01001.70c 1.3431e-01 01002.70c 1.5448e-05 08016.70c 5.2962e-01
08017.70c 2.0174e-04 11023.70c 5.1116e-03 13027.70c 6.0596e-03
14028.70c 3.9343e-02 14029.70c 1.9987e-03 14030.70c 1.3190e-03
15031.70c 3.6290e-03 16032.70c 2.2703e-04 16033.70c 1.7929e-06
16034.70c 1.0158e-05 16036.70c 2.4026e-08 19039.70c 9.1400e-04
19040.70c 1.1512e-07 19041.70c 6.5961e-05 20040.70c 1.2235e-02
20042.70c 8.1657e-05 20043.70c 1.7038e-05 20044.70c 2.6327e-04
20046.70c 5.0454e-07 20048.70c 2.3602e-05 26054.70c 1.5462e-02
26056.70c 2.4273e-01 26057.70c 5.6057e-03 26058.70c 7.4601e-04
mt200 lwtr.01t
read file=geometry/materials.i echo
c
c ++++++++++++++++++++++ END ++++++++++++++++++++++++++++
c -------------------------------------------------------
@@ -722,68 +89,22 @@ c ++++++++++++++++++++++ END ++++++++++++++++++++++++++++
c -----------------------------------------------------------
c ------------------- TALLY CARDS ---------------------------
c
fc24 neutron flux at VS
f24:n 704
e24 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq24 e f
c read file=tallies/bunker_mesh.i echo
read file=tallies/inbunker_f4.i echo
c read file=tallies/chopper_pit_doses.i echo
c read file=tallies/bunker_wall_f4.i echo
c read file=tallies/e1_e2_f4.i echo
read file=tallies/e1_e2_f5.i echo
c read file=tallies/shutter_f4.i echo
c read file=tallies/shutter_f5.i echo
read file=tallies/optical_cave_f5.i echo
c
fc106 deposited energy at chopper disk and spindle
+f106 4121 4131
e106 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq106 e f
c
fc6 deposited energy at VS stages x/z/rot
+f6 (5711 5712) (5721 5722) (5731)
e6 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq6 e f
c ==========================================
c
c ==========================================
c dxt:n 730 -1380 0 31 120 1020 -1170 0 31 120
c 779.4 -1093.7 -2.6 13 80 0.1 1e-15
dxc0:n 0 508r 0.25 64r 1 115r
c has to be for specific detector as pd0 does not work properly
c 1-255 256 257 268 259-265 266-268 269-508 509-end
c pd5 0.001 254r 0.1 0.001 1 0.001 6r 1 2r 0.001 239r 0.1 110r 1 70r
c
c 1 2 3 4 5 6-14 15-22 23 24 25 26-34 35 36 37 38 39
c 40-42 43-266 267 268-488 489-494 //
@@ -804,7 +125,7 @@ c -------------------------------------------------------
c --------------- PHYSICS CARDS --------------------------
c -------------------------------------------------------
c dbcn 375642321 j j j j j j j j j j j 15291711
nps 1e8
nps 1e9
c histp
mode n p n h / d t s a
c volume calculated for tally cells (spheres)
@@ -815,7 +136,6 @@ imp:n,p 0 0 1 687r
cut:h,/,d,t,s,a 1e+08 1e-3
c cut:n j 0.99E-6
cut:n j 1e-11
c esplt:n 0.05 1e-6 0.2 1e-3 1 10 3 100 10 3000
cut:p 1e+08 0.5
phys:n 3000 0
phys:p 100
@@ -824,11 +144,11 @@ phys:h 3000
lca 2 1 1 0023 1 1 0 1 1 0
lea 1 4 1 0 1 0 0 1
c * Source for simulation from proton beam (needs different WW and ESplit)
c read file=source_proton.i echo
c read file=sources/proton.i echo
c * Source Term from Valentina for 2m adapted to size
c read file=e2-source_2m.i echo
c * McStas source terms for gamma doeses (needs no WW)
read file=mcstas_source_vs.i echo
c read file=sources/e2_2m.i echo
c * McStas source terms for gamma doeses
read file=sources/mcstas_source_vs.i echo
prdmp 5e7 -60 1 2 5e6
print 30 32 $ 120 128 150 160 161 162
c ++++++++++++++++++++++ END ++++++++++++++++++++++++++++

2
e2-ess_cells.i → geometry/ess_cells.i
View File

@@ -45,7 +45,7 @@ c Main ESS plant geometry without the instrument
32 5 0.0582256 ( -34 : 35 : 36 ) -37 34 -38
33 119 0.121164 ( -34 : 37 : 38 ) -37 34 -19
34 5 0.0582256 ( -34 : 37 : 19 ) -37 320 -21
35 0 -61 3 21 -42 41 -40 39 #700 #1135 #1136
35 0 -61 3 21 -42 41 -40 39 #1135 #1136
36 5 0.0582256 -61 3 21 ( -39 : 40 : -41 : 42 ) -46 45 -44 43
( -142 : 332 : 556 : -325 )
37 0 -61 -3 21 -320 33 -48 47

0
e2-ess_surfaces.i → geometry/ess_surfaces.i
View File

16
geometry/estia_cave.i Normal file
View File

@@ -0,0 +1,16 @@
c Experimental cave
c First largest area: up-stream/down-stream/roof/floor/walls
c then cut corner and add extended roof
8701 49 0.074981 ((8709 8710 8701 8703 8706 8707 8708 8709 8710 (8704 : 8705))
:(8709 8710 8702 8703 8711 8712))
#((-8809 -8810 -8801 -8803 -8806 -8807 -8808 -8809 -8810
(-8804 : -8805))
:(-8809 -8810 -8802 -8803 -8811 -8812)
:(-8311 -8312 8709 8809 -8313 -8803))
#(( 72 -8101 8201 8202 8203 8204 3)
:(8101 -8709 8301 8302 8303 8304 3))
8702 4 -1.2E-3 ((-8809 -8810 -8801 -8803 -8806 -8807 -8808 -8809 -8810
(-8804 : -8805))
:(-8809 -8810 -8802 -8803 -8811 -8812)
:(-8311 -8312 8709 8809 -8313 -8803)) 3
#6111 #8501 #8511

112
geometry/estia_guides.i Normal file
View File

@@ -0,0 +1,112 @@
c geometry from bunker wall until experimental cave entrance
c -----Wall Cut-Out---
6001 4 -1.2E-3 ((68 -6100 -6201 -6202 -6203 -6204)
:(6100 -6101 -6301 -6302 -6303 -6304)) 3
#(-5102 5501 5502 -5505 5504)
#(5102 -7100 -5531)
6002 4 -1.2E-3 ((6101 -6102 -6401 -6402 -6403 -6404)
:(6102 -6103 -6501 -6502 -6503 -6504)) 3
#(5102 -7100 -5531)
#((7100 -7102 7201 7202 7203 7204)
:(7102 -7103 7205 7206 7207 7208))
#(7103 -6103 -8921)
6003 4 -1.2E-3 (6103 -72 -6601 -6602 -6603 -6604 -6605) 3
#(7103 8405 -8921)
#(7102 -7103 7205 7206 7207 7208)
#(-8405 8401 8402 8403 8404)
c Vacuum before and inside Selene Guide 1
6101 0 ((7103 8405 -8922 3)
:(-8405 8406 -8411 8412 8413 8402 3))
#706 #8311 #8411 #8412 #8413
6102 5 0.0582256 (7103 8405 8922 -8921 3)
c Vaccum after Selene 1, until and inside Selen 2
6111 0 ((-8406 -8100 -8932 3)
:(8100 -8101 -8501 -8502 -8503 -8504 3)
:(8101 -8121 -8932 3)
:(8121 -8122 8601 -8611 -8612 -8613 3))
#707 #8511
6112 5 0.0582256 (-8406 -8121 8932 -8931 3 #(8100 -8101))
c -----Bunker Wall Collimator (BWC)-----
7001 0 (7100 -7103 -7301 -7302 -7303 -7304 3)
#(7101 -7401 7402)
7021 14 -8.92 7100 -7101 7201 7202 7203 7204 3
#(7100 -7101 -7301 -7302 -7303 -7304)
7022 14 -8.92 7101 -7111 7201 7202 7203 7204 3
#(7101 -7111 -7301 -7302 -7303 7401)
#(7101 -7111 -7301 -7302 -7402 -7304)
7023 14 -8.92 7111 -7112 7201 7202 7203 7204 3 7110
7024 14 -8.92 7111 -7112 -7110 3
#(7111 -7112 -7301 -7302 -7303 7401)
#(7111 -7112 -7301 -7302 -7402 -7304)
7025 14 -8.92 7112 -7102 7201 7202 7203 7204 3
#(7112 -7103 -7301 -7302 -7303 7401)
#(7112 -7103 -7301 -7302 -7402 -7304)
7026 14 -8.92 7102 -7103 7205 7206 7207 7208 3
#(7102 -7103 -7301 -7302 -7303 7401)
#(7102 -7103 -7301 -7302 -7402 -7304)
c ---- Outside of Bunker
c -- Shielding Walls --
c concrete floor
8001 49 0.074981 ((68 -72 8209 -70 -104 -2)
:(72 -8101 8209 -59 8201 8202)
:(8101 -8709 8209 -59 8301 8302)) 3
c ceiling outside
8002 49 0.074981 ( 72 -8101 8207 8203 8201 8202)
c left outer wall (E01)
8003 49 0.074981 ( 72 -8100 8201 -8205 59 -8207 3)
c Selene 1/2 separator
8004 200 -3.9 (8100 -8101 8201 8202 59 -8207 3)
#(8100 -8101 -8221 -8222 -8223 -8224)
c Optical cave
8005 200 -3.9 (8101 -8709 59 8301 8302 8303 3)
#(8101 -8709 -8311 -8312 -8313 -8314)
c air
8008 4 -1.2E-3 (72 -8100 -8211 -8212 -8213 -8214 3)
#(-8406 -8931)
#(-8405 8406 8401 8402 8403 8404)
8009 4 -1.2E-3 (8101 -8709 -8311 -8312 -8313 -8314 3)
#(8121 -8122 8601 8602 8603 8604)
#(-8121 -8931)
#707 #710
c B4C concrete inner layers
8011 16 -2.4 (8211 8215 -8213 -8214 72 -8100 3)
8012 16 -2.4 (8205 8202 8213 -8218 72 -8100 3)
8013 16 -2.4 (8212 -8216 -8213 -8214 8111 -8100 3)
8014 16 -2.4 (8202 -8206 8217 -8213 -8214 8111 -8100 3)
c Steel middle layers
8020 71 0.0843223 (8212 8202 -8213 -8214 72 -8111 3)
8021 71 0.0843223 (-8215 8205 -8213 -8214 72 -8100 3)
8022 71 0.0843223 (8205 8202 8218 -8207 72 -8100 3)
8023 71 0.0843223 (8216 8202 (-8217:8206) -8213 -8214 8111 -8100 3)
c
c Selene 1 carrier
8301 18 -2.4 -8405 8406 ((8401 8402 8403 8404)
#(-8411 8402 8412 8413))
c Selene 1 glass (change material!!)
8311 12 -2.51 -8405 8406 -8903 -8904 -8518
#(-8901 -8902) #(-8515 -8517) 3
c Copper in wall
8401 14 -8.92 (8100 -8101 -8221 -8222 -8223 -8224 3)
#(8100 -8101 -8501 -8502 -8503 -8504)
c Copper in Selene 1
8411 14 -8.92 (8111 -8112 8518 8402 8412 8413 3)
:(8111 -8112 8511 8402 -8901 3)
:(8111 -8112 8519 8402 -8515 -8517 3)
8412 14 -8.92 (8113 -8114 8518 8402 8412 8413 3)
:(8113 -8114 8512 8402 -8901 3)
:(8113 -8114 8519 8402 -8515 -8517 3)
8413 14 -8.92 (8115 -8116 8518 8402 8412 8413 3)
:(8115 -8116 8513 8402 -8901 3)
:(8115 -8116 8519 8402 -8515 -8517 3)
c Selene 2 carrier
8501 18 -2.4 (8121 -8122 8601 8602 8603 8604 3)
#(8121 -8122 8601 -8611 -8612 -8613 3)
c Selene 2 glass (change material!!)
8511 12 -2.51 8121 -8122 -8913 -8914 8915
#(-8911 -8912) #(-8515 -8517) 3
c Air outside the guide shielding
8601 4 -1.2E-3 72 -8709 -104 -8201 8203 8204
#708
8602 4 -1.2E-3 ((112 -8202)
:(8202 -8302 8101)) 72 -8709 8203 8204
#709

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c Estia geometry inside monolith and bunker
c elliptic guide
c NBOA beam
1001 9 2.45e-05 1100 -1101 -1301 -1302 -1303 -1304
1002 9 2.45e-05 1101 -1102 (-1321:-1322) -1311 -1501 -1502
1003 9 2.45e-05 1102 -1103 (-1331:-1332) -1311 -1501 -1502
1004 9 2.45e-05 1103 -1104 (-1341:-1342) -1311 -1501 -1502
1005 9 2.45e-05 1104 -1105 (-1351:-1352) -1311 -1501 -1502
1006 9 2.45e-05 1105 -1106 (-1361:-1362) -1311 -1502 -1501
1007 9 2.45e-05 1106 -1107 (-1371:-1372) -1311 -1502 -1501
1008 9 2.45e-05 1107 -1108 (-1381:-1382) -1311 -1502 -1501
1011 9 2.45e-05 1100 -1101 #(1201 1202 1203 1204) 1305 1306 1307 1308
1012 9 2.45e-05 ((1101 -1115 1213 -1507 -1508)
:(1115 -1105 1214 -1509 -1510)) #(1211 -1503 -1504)
1013 9 2.45e-05 1105 -1107 #(1212 -1505 -1506) 1214 -1509 -1510
1014 9 2.45e-05 ((1117 -1108 1213 -1507 -1508)
:(1107 -1117 1214 -1509 -1510)
) #(1211 -1503 -1504)
c NBOA outside
1021 14 -8.92 (1100 -1101 1201 1202 1203 1204
(1301 : 1302 : 1303 : 1304))
1022 14 -8.92 (1101 -1103 1211 -1503 -1504)
(1311:1501:1502)
1023 14 -8.92 (1103 -1104 1211 -1503 -1504)
(1311:1501:1502)
1024 14 -8.92 (1104 -1105 1211 -1503 -1504)
(1311:1501:1502)
1025 14 -8.92 (1105 -1107 1212 -1505 -1506)
(1311:1501:1502)
1026 14 -8.92 (1107 -1108 1211 -1504 -1503)
(1311:1501:1502)
c NBOA wedges
1032 14 -8.92 ((1101 -1102 1321 1322)
:(1102 -1103 1331 1332)
) -1502 -1311
1033 14 -8.92 1103 -1104 1341 1342 -1502 -1311
1034 14 -8.92 1104 -1105 1351 1352 -1502 -1311
1035 14 -8.92 ((1105 -1106 1361 1362)
:(1106 -1107 1371 1372)
) -1502 -1311
1036 14 -8.92 1107 -1108 1381 1382 -1502 -1311
c Al window and He in front of NBOA
1041 5 0.0582256 61 -1110 1305 1306 1307 1308
1042 9 2.45e-05 1110 -1100 1305 1306 1307 1308
c Al window and He behind NBOA
1051 9 2.45e-05 1108 -1118 1213 -1508 -1507
1052 5 0.0582256 1118 -64 1213 -1508 -1507
c extended cut-out in reflector
1135 0 -61 3 58 1205 1206 1207 1208
1136 5 0.0582256 -61 3 #(41 -42) 58 1201 1202 1203 1204 #1135
c split of wedge of monolith components for increased importance
1236 5 0.0582256 ( 142 -332 -556 325 ) ( -1201 : -1202 : -1203 : -1204 : -58)
( -39 : 40 : -41 : 42 ) -61 3 21 -46 45 -44 43
dxc1:n=0.001
1240 121 0.0862739 ( 142 -332 -556 325 )
( -43 : -45 : 46 : 44 ) -58 ( -53 : 54 : 55 )
dxc1:n=0.001 dxc2:n=0.1 dxc3:n=0.1 dxc4:n=0.1
1241 121 0.0862739 ( 142 -332 -556 325 ) ( -1201 : -1202 : -1203 : -1204 )
-61 58 ( -43 : -45 : 46 : 44 )
dxc1:n=0.1 dxc2:n=0.1 dxc3:n=0.1 dxc4:n=0.1
c partitioned air in bunker
1255 4 -1.2E-3 3 -68 -2 -101 66 -67 64 112
( 329 : 4615 : -342 : 353 : 4100 )
( -66 : 4615 : -342 : 353 : -3111 )
#(-1605 -1623) #(-1622 1623 -1624)
#(-1639 1624 -1637) #(-1658 1637 -1660)
#3137
1256 4 -1.2E-3 ( -329 -4615 342 -353 ) 64 -3110
#( 2100 -2101 2201 2202 2203 2204 )
1257 4 -1.2E-3 (( -329 -4615 342 -353 ) 3110 -4805
#((3110 -3111 -3541)
:(3111 -4100 -3531)))
#(-3440 -3404 3446)
#(-3441 -3326 3446)
#(-3442 -3326 3446)
1258 4 -1.2E-3 (( 66 3111 329 #(4811 -4812 -4820) )
:( -329 -4615 4805
#( 5101 4604 5501 5502 -5505 5504 ) )
#((4811 -4812 -4820)
:(-4814 -4815 -4602 4813 4805 -4101)
:(4812 -4602 ((4601 -4603 -4818 -4819):(4603 -4604 -4818)))
:(4602 4611 4612 4613 4614 -4615))
) 342 -353 -68 #4201 #4202 #4203 #4204 #4131
c part around inserts E01,E02,E03
1489 54 0.0833854 109 556 -334 325 -326 -64 330 3
( -153 : 154 : 159 ) -329
1490 54 0.0833854 -556 -1107
( -336 : -330 : -341 : -459 : 64 : 460 : 342 )
( -348 : -330 : -353 : -459 : 64 : 460 : 354 )
-334 -329 -326 325 -64 330 3 ( -153 : 154 : 159 )
( -330 : -569 : -459 : 64 : 460 : 570 : 564 )
1491 54 0.0833854 -556 1107
( -336 : -330 : -341 : -459 : 64 : 460 : 342 )
( -348 : -330 : -353 : -459 : 64 : 460 : 354 )
-334 -329 -326 325 -64 330 3 ( -153 : 154 : 159 )
( -330 : -569 : -459 : 64 : 460 : 570 : 564 )
1494 54 0.0833854 -556 -1103
( -336 : -61 : -337 : -575 : 457 : 330 : 338 : ( 575 565 -457 ) )
( -348 : -61 : -349 : -575 : 457 : 330 : 350 : ( 575 554 -457 ) )
( -153 : 154 : 159 ) 3 61 -330 -326 325 335 -332
( -61 : -565 : -1001 : 457 : 330 : 566 : 349 : 564 : ( -457 349 575 ) )
1495 54 0.0833854 -556 1103
( -336 : -61 : -337 : -575 : 457 : 330 : 338 : ( 575 565 -457 ) )
( -348 : -61 : -349 : -575 : 457 : 330 : 350 : ( 575 554 -457 ) )
( -153 : 154 : 159 ) 3 61 -330 -326 325 335 -332
( -61 : -565 : -1001 : 457 : 330 : 566 : 564 : ( -457 349 575 ) )
1586 3 0.0876276 ( -554 : -575 : 457 ) -330 #589
-458 -345 351 -352 1103 348
1588 3 0.0876276 -64 -332 459 355 -356 330
348 1107 #589
1591 3 0.0876276 ( -349 : -1001 : 457 ) -330
-458 1000 567 -568 -564 -2 1103
(-1101 : -1213 : 1508 : 1507)
1593 3 0.0876276 -64 -332 459 571 -572 330 -564 -2 1107
( -1213 : 1508 : 1507)
#(1107 -1117 1214 -1509 -1510)
1596 3 0.0876276 ( -565 : -575 : 457 ) -330
-458 -345 339 -340 1103 336
1598 3 0.0876276 -64 -332 459 343 -344 330 336 1107
c SKADI in-bunker components
c collimators
1901 0 64 3 ((-1604 -1623):(-1622 1623 -1624)
:(-1639 1624 -1637):(-1658 1637 -1660))
#1940 #1945 #1957 #1958 #1963 #1967 #1982 #1983
1940 5 0.0582256 1604 -1605 -1623 64 3
1945 73 0.0844385 ( -1594 : 1595 : -1615 : 1616 ) -1607 1606 -1618 1617 -1599
1598 1614
1957 0 ( -1690 : 1691 ) ( -1647 : 1646 : 1645 ) ( -1643 : 1644 : 1645 ) -1637
1636 -1638 ( -1648 : -1653 : -1598 : -1650 : 1599 : 1654 : 1649 )
1958 5 0.0582256 1638 -1639 -1641 1640
1963 73 0.0844385 ( 1595 : -1594 : -1651 : 1652 ) -1649 1648 -1654 1653 1598
-1599 1650
1967 5 0.0582256 1657 -1658 -1660 1659
1982 73 0.0844385 -1622 ( -1631 : -1598 : -1632 : 1633 : 1599 )
-1624 1623
1983 73 0.0844385 -1638 ( -1650 : -1598 : -1653 : 1654 : 1599 )
-1691 1690
c
c BBG beam top/beam bottom/outside
2001 9 2.45e-05 2100 -2101 -2301 -2302 -2303 -2304 3 #701
2011 9 2.45e-05 2100 -2101 -2301 -2302 -2305 -2306 3
2021 14 -8.92 2100 -2101 2201 2202 2203 2204 3
(2301:2302:2303:2306:(2304 2305))
c NFGA beam top
3001 0 3100 -3101 -3301 -3311 -3501 -3502
3002 0 3101 -3102 -3302 -3312 -3501 -3502
3003 0 3102 -3103 -3302 -3313 -3501 -3502
3004 0 3103 -3104 -3302 -3314 -3501 -3502
3005 0 3104 -3105 -3302 -3315 -3501 -3502
3006 0 3105 -3106 -3302 -3316 -3501 -3502
3007 0 3106 -3107 -3302 -3317 -3501 -3502
c NFGA beam bottom
3011 0 3100 -3101 -3301 -3321 -3501 -3502
3012 0 3101 -3102 -3302 -3322 -3501 -3502
3013 0 3102 -3103 -3302 -3323 -3501 -3502
3014 0 3103 -3104 -3302 -3324 -3501 -3502
3015 0 3104 -3105 -3302 -3325 -3501 -3502
3016 0 3105 -3106 -3302 -3326 -3501 -3502
3017 0 3106 -3107 -3302 -3327 -3501 -3502
c NFGA outside
3021 5 0.0582256 3100 -3101 -3503 -3504 3201
#(-3301 #(3311 3321) -3501 -3502)
3022 5 0.0582256 3101 -3102 -3503 -3504 3202
#(-3302 #(3312 3322) -3501 -3502)
3023 5 0.0582256 3102 -3103 -3503 -3504 3202
#(-3302 #(3313 3323) -3501 -3502)
3024 5 0.0582256 3103 -3104 -3503 -3504 3202
#(-3302 #(3314 3324) -3501 -3502)
3025 5 0.0582256 3104 -3105 -3503 -3504 3202
#(-3302 #(3315 3325) -3501 -3502)
3026 5 0.0582256 3105 -3106 -3503 -3504 3202
#(-3302 #(3316 3326) -3501 -3502)
3027 5 0.0582256 3106 -3107 -3503 -3504 3202
#(-3302 #(3317 3327) -3501 -3502)
c NFSA Vaccum tank and connection to collimator
3122 0 ((((3112 -3131 -3522 3)
:(3131 -4805 -3532 3)) #(
(3100 -3101 3201 -3504 -3503)
:(3101 -3107 3202 -3504 -3503)))
:(-3434 -3404 -3541)
:(-3435 -3326 -3541)
:(-3436 -3326 -3541))
#702 #3151
3123 5 0.0582256 ((3110 -3111 3522 -3521)
:(3110 -3112 -3521)
:(3113 -3111 3532 -3521)
:(3111 -4805 3532 -3531)) 3
#(-3431 -3326)
#(-3432 -3326)
#(-3433 -3326)
3124 0 3446 3541 3437 -3440 -3326 #3131 #3134
3125 0 3446 3541 3438 -3441 -3326 #3132 #3135
3126 0 3446 3541 3439 -3442 -3326 #3133 #3136
3131 5 0.0582256 3434 -3431 3522 3443 -3326
3132 5 0.0582256 3435 -3432 3522 3443 -3326
3133 5 0.0582256 3436 -3433 3522 3443 -3326
3134 71 0.0843223 ((-3431 3446 -3443)
:(-3440 3444 -3443)
:(-3440 3446 -3445)) 3434
3135 71 0.0843223 ((-3432 3446 -3443)
:(-3441 3444 -3443)
:(-3441 3446 -3445)) 3435
3136 71 0.0843223 ((-3433 3446 -3443)
:(-3442 3444 -3443)
:(-3442 3446 -3445)) 3436
3137 49 0.074981 3421 3422 -3423 3424 3425 3426
c B-Al plate
3141 10 -2.7 3131 -3113 3532 -3522 3
c MirroBor outside vessel
3142 17 -1.36 3110 -3111 3521 -3541 3
#(-3431 -3326)
#(-3432 -3326)
#(-3433 -3326)
c NFSA Guide support
3151 71 0.0843223 (3120 -3121 (3401 3402 3403 3404 3)
#(3411 3412 -3413 3414))
:(3446 -3404 -3437)
:(3446 -1000 -3438)
:(3446 -1000 -3439)
c -----Collimators----
c CPC1 - Collimator before VS
4001 0 -4301 -4302 -4303 -4304 4805 -4101 -2
4010 10 -2.7 -4814 -4815 -4602 4813 4805 -4807 #4001
4011 14 -8.92 -4814 -4815 -4602 4813 4807 4819 #4001
4012 14 -8.92 4201 4202 -4705 4704 -4708 -4101 #4001
c Vacuum tank around VS
4101 0 (4705 4616 4617 4610 4619 -4618) #4121
4102 0 (4704 -4705 ((-4706 -4707 -4708 -4603):(4603 -4702)))
#(-4101 4704 4201 4202)
#(5604 -5601 -5611)
#5701 #5702 #5711 #5712 #5751 #5761 #4121
#5021 #703 #704
4103 0 (4703 -4704 -4701)
#(-4101 4704 4201 4202)
#5711 #5712 #5721 #5722 #5731
4104 0 (4603 -4604 4702 -5301 -5302 -5303 -5304)
4105 0 (5604 -5601 -5612)
#(5604 -5601 (5612:(5613 5616):(5614 5615)
:(5614 5616):(-5614 -5618):(-5616 5617)) -5611)
#5701 #5702
4111 5 0.0582256 ((4602 4611 4612 4613 4614 -4615):
(4705 -4602 ((4601 -4603 -4818 -4819)
:(4603 -4604 -4818))))
#(4616 4617 4610 4619 -4618)
4112 5 0.0582256 (4704 -4705 ((4601 -4603 -4818 -4819):(4603 -4604 -4818)))
#((-4706 -4707 -4708 -4603):(4603 -4702))
#(-5301 -5302 -5303 -5304)
#(-4301 -4302 -4303 -4304)
4113 5 0.0582256 (4812 -4704 ((4601 -4603 -4818 -4819):(4603 -4604 -4818)))
#(4703 -4704 -4701)
4114 5 0.0582256 4811 -4812 -4820 #(4703 -4704 -4701)
c chopper disk
4121 5 0.0582256 -4621 4622 -4623
c chopper spindle
4131 3 0.0876276 -4612 4631 -4632 -4604
c Concrete base (5% B4C)
4201 16 -2.4 (4801 4802 4804 -4811 4805 4806)
4202 16 -2.4 (4801 4802 4811 -4812 4805 4806)
#(-4820)
#(-4817 -4814 -4815)
4203 16 -2.4 (4801 4802 4812 -4813 4805 4806)
#(-4818 -4819)
#(-4816 -4814 -4815)
4204 16 -2.4 (4801 4802 4813 4803 4805 4806)
#(-4818 -4819)
#(-4814 -4815)
c CPC2 with Cu nose
5001 0 ((5101 4604 -5102 -5301 -5302 -5303 -5304 3)
:(5102 -7100 -5532 3)) #705
5002 5 0.0582256 (5102 -7100 5532 -5531 3)
5021 14 -8.92 5401 5402 -5403 5404 5405 5406
#(-5301 -5302 -5303 -5304)
5022 14 -8.92 5101 4604 -5102 5501 5502 -4602 5504 3
#5001
5023 71 0.0843223 5101 4604 -5102 5501 5502 4602 -5505 3
#5001
c VS Lead shielding (FIX MATERIALS)
c boral part top and bottom
5601 10 -2.7 5602 -5601 (5612:(5613 5616):(5614 5615)
:(5614 5616):(-5614 -5618):(-5616 5617))
-5611
5602 10 -2.7 5604 -5603 (5612:(5613 5616):(5614 5615)
:(5614 5616):(-5614 -5618):(-5616 5617))
-5611
c lead part
5603 13 -11.34 5603 -5602 (5612
:(5613 5616):(5614 5615)
:(5614 5616)
:(-5614 -5618):(-5616 5617))
-5611
c VS holder stands
5701 5 0.0582256 -5701 5704 -5703
5702 5 0.0582256 -5702 5704 -5703
c simplified model of stages (hollow cylinders)
c x-stages
5711 5 0.0582256 5732 -5731 -5711
#(5742 -5741 -5721)
5712 5 0.0582256 5732 -5731 -5712
#(5742 -5741 -5722)
c z-stages
5721 5 0.0582256 5733 -5732 -5713
#(5744 -5743 -5723)
5722 5 0.0582256 5733 -5732 -5714
#(5744 -5743 -5724)
c omega-stage
5731 5 0.0582256 5734 -5733 -5715
#(5746 -5745 -5725)
c B4C blades
5751 20 -2.3 ((-5751 -5754 5755)
:(-5752 -5755 5703)) -5753 5756 -5757
5761 20 -2.3 ((-5762 -5764 5765)
:(-5763 -5765 5703)) -5761 -5766 5767

0
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c -------------------------------------------------------
c --------------- MATERIAL CARDS ------------------------
c -------------------------------------------------------
c
c Material : Stainless304 rho=0.0876276
m3 6000.70c 0.00031864 14028.70c 0.00170336 15031.70c 6.95038e-05
16032.70c 4.4752e-05 24000.50c 0.0174813 25055.70c 0.00174159
26054.70c 0.00338 26056.70c 0.053455 26057.70c 0.00128218
28000.50c 0.00815128 pnlib=70u
mx3:h 6012.70h j j j j j j j j j
c
C NIST STANDARD DRY AIR rho=1.2E-3
m4 06000.70C 0.000150190
07014.70C 0.781575139
07015.70C 0.002855327
08016.70C 0.210748199
18036.70C 0.000015718
18038.70C 0.000002952
18040.70C 0.004652475
c Material : Aluminium rho=0.0582256
m5 13027.70c 0.054381 12024.70c 0.00207 12025.70c 0.0002621
12026.70c 0.0002885 14028.70c 0.000217 22048.70c 8.7e-05
24052.24c 7.8e-05 24053.24c 1e-05 25055.70c 0.000408 26056.70c
0.000214 26057.70c 5e-06 29063.70c 4e-05 29065.70c 2e-05
30000.70c 0.000145 pnlib=70u
mt5 al27.10t
c
c polyethylene PSI -0.94 g/cm3
c m6 1001.70c -0.1437 6000.70c -0.8563
c mt6 poly.01t
c mx6:h j 6012.70h
c borated polyethylene PSI (5% B4C) -0.95 g/cm3
c m7 1001.70c -0.1183 5010.70c -0.0268 5011.70c -0.1077 6000.70c -0.7472
c mx7:h j j j 6012.70h
c mt7 poly.01t
c Material : helium rho=2.45e-05
c PSI Borax for HE-shutter
c EP + B4C 50%-50% (1.8 g/cc)
c m8 5010.70c -0.0782 5011.70c -0.3133 6000.70c -0.4481 7015.70c -0.132 &
c 1001.70c -0.0284
c mx8:h j j 6012.70h j j
c mt8 lwtr.01t
c Helium
m9 2004.70c 2.45e-05 pnlib=70u
c
c BorAL 1100 alloy (2.7 g/cc)
m10 5010.70c -0.04 5011.70c -0.01 13027.70c -0.9288 &
14000.70c -0.01 25055.70c -5.0E-3 26000.50c -5.0E-3 &
29000.50c -1.0E-3 30000.70c -2.0E-4
c
c Material : H2O rho=0.100283
m11 1001.70c 0.0668456 1002.70c 1.003e-05 8016.70c 0.0334278
pnlib=70u
mt11 lwtr.01t
c
c bor-float glass 13% B2O3 2.51 g/cm3
m12 8016.70c -0.4078 11023.70c -0.096441 14000.70c -0.336563 &
20000.60c -0.107205 5010.70c -0.0104 5011.70c -0.0416
c lead (11.34 g/cm3)
m13 82000.50c 1.0
c Copper density=8.92 g/cm3
m14 29000.50c 1.0
c PSI Beton Ba/Fe/Bor 4.9 (4.9% B4C) (4.99 g/cm3)
c m15 1001.70c -3.62e-3
c 6000.70c -5.23e-3
c 8016.70c -0.08511
c 12000.60c -7e-4
c 13027.70c -4.71e-3
c 14000.70c -1.983e-2
c 16000.70c -1.368e-2
c 20000.60c -2.425e-2
c 24000.50c -0.13896
c 25055.70c -1.544e-2
c 26000.50c -0.52608
c 27059.50c -0.007
c 28000.50c -7.72e-2
c 56138.50c -3.985e-2
c 5010.70c -7.66e-3
c 5011.70c -3.068e-2
c mx15:h j 6012.70h j j j j j j j j j j j j j j
c mt15 poly.01t
c Boron Concrete (5% B4C)(2.4 g/cc)
m16 1001.70c -6.09e-3
6000.70c -0.1726
8016.70c -0.404
12000.60c -0.0322
13027.70c -0.0115
14000.70c -3.3906e-2
20000.60c -0.3222
26054.70c -4.22e-4
26056.70c -6.92e-3
26057.70c -1.62e-4
5010.70c -2e-3
5011.70c -8e-3
mx16:h j 6012.70h j j j j j j j j j j
mt16 lwtr.01t
c Mirrobor (1.36 g/cm3)
m17 1001.70c -0.01
6000.70c -0.3
8016.70c -0.05
5010.70c -0.127
5011.70c -0.513
mx17:h j 6012.70h j j j
mt17 poly.01t
c Mineral cast 2% Boron (2.4 g/cm3)
m18 1001.70c -0.05
6000.70c -0.26
8016.70c -0.2325
12000.60c -0.007
13027.70c -0.023
14000.70c -0.38
26000.50c -0.02
28000.50c -0.004
5010.70c -0.0047
5011.70c -0.0188
mx18:h j 6012.70h j j j j j j j j
mt18 poly.01t
c
c B4C sintered (2.3 g/cc)
m20 5010.70c -0.1841 5011.70c -0.74345 8016.70c -0.07245
c
c Material : Concrete rho=0.074981
m49 1001.70c 0.00776555 1002.70c 1.16501e-06 8016.70c 0.0438499
11023.70c 0.00104778 12000.60c 0.000148662 13027.70c 0.00238815
14028.70c 0.0158026 16032.70c 5.63433e-05 19000.60c 0.000693104
20000.60c 0.00291501 26054.70c 1.84504e-05 26056.70c
0.000286826 26057.70c 6.5671e-06 26058.70c 8.75613e-07
pnlib=70u
mt49 lwtr.01t
c
c Material : CastIron rho=0.0833854
m54 6000.70c 0.00636 14028.70c 0.0051404 25055.70c 0.000386
26054.70c 0.00419 26056.70c 0.065789 26057.70c 0.00152
pnlib=70u
mx54:h 6012.70h j j j j j
c
c Material : Steel71 rho=0.0843223
m71 6000.70c 0.000101187 14028.70c 0.000295128 24000.50c
0.000168645 25055.70c 0.000505934 26054.70c 0.0048414 26056.70c
0.0759996 26057.70c 0.00175516 26058.70c 0.00023358 28058.70c
0.000172218 28060.70c 6.6335e-05 28061.70c 2.88126e-06
28062.70c 9.19272e-06 28064.70c 2.33992e-06 29063.70c
0.000116651 29065.70c 5.19931e-05 pnlib=70u
mx71:h 6012.70h j j j j j j j j j j j j j j
c
c Material : Copper rho=0.0844385
c (rho=8.91001 g/cc)
m73 29063.70c 0.0583892 29065.70c 0.0260493 pnlib=70u
c
c Material : Be5H2O rho=0.122325
m118 1001.70c 0.00334228 4009.70c 0.117311 8016.70c 0.00167114
pnlib=70u
mx118:h j model j
mt118 be.60t lwtr.01t
c
c Material : Be10H2O rho=0.121164
m119 1001.70c 0.00668456 4009.70c 0.111137 8016.70c 0.00334278
pnlib=70u
c
mx119:h j model j
mt119 be.60t lwtr.01t
c
c Material : Tungsten_15.1g rho=0.0494621
m120 74182.70c 0.0131232 74183.70c 0.00708653 74184.70c 0.0151734
74186.70c 0.014079 pnlib=70u
c
c Material : Iron_10H2O rho=0.0862739
m121 1001.70c 0.00668924 8016.70c 0.00334462 26054.70c 0.00445623
26056.70c 0.0699533 26057.70c 0.00161553 26058.70c 0.000214997
pnlib=70u
mt121 lwtr.01t
c
c Material : CarstonConc rho=0.0824808
m122 1001.70c 0.0229186 1002.70c 1.23628e-06 5010.70c 0.0001187
5011.70c 0.00047781 6000.70c 0.00623398 8016.70c 0.0406466
14028.70c 0.0049816 14029.70c 0.0002529 14030.70c 0.00016675
20040.70c 0.0062902 20042.70c 4.1981e-05 20043.70c 8.759e-06
20044.70c 0.0001353 20046.70c 2.5956e-07 20048.70c 1.21339e-05
26054.70c 1.1341e-05 26056.70c 0.00017803 26057.70c 4.1115e-06
26058.70c 5.47166e-07 pnlib=70u
mx122:h j j j j 6012.70h j j j j j j j j j
j j j j j
mt122 poly.01t
c
c Material : ParaOrtho%0.5 rho=0.041975
m123 1001.70c 0.000209875 1005.60c 0.0417651 pnlib=70u
mx123:h j 1001.70h
mt123 hpara.10t hortho.10t
c
c Material : ESS Magnadense Heavy Concrete (density -3.9g/cm³)
m200 01001.70c 1.3431e-01 01002.70c 1.5448e-05 08016.70c 5.2962e-01
08017.70c 2.0174e-04 11023.70c 5.1116e-03 13027.70c 6.0596e-03
14028.70c 3.9343e-02 14029.70c 1.9987e-03 14030.70c 1.3190e-03
15031.70c 3.6290e-03 16032.70c 2.2703e-04 16033.70c 1.7929e-06
16034.70c 1.0158e-05 16036.70c 2.4026e-08 19039.70c 9.1400e-04
19040.70c 1.1512e-07 19041.70c 6.5961e-05 20040.70c 1.2235e-02
20042.70c 8.1657e-05 20043.70c 1.7038e-05 20044.70c 2.6327e-04
20046.70c 5.0454e-07 20048.70c 2.3602e-05 26054.70c 1.5462e-02
26056.70c 2.4273e-01 26057.70c 5.6057e-03 26058.70c 7.4601e-04
mt200 lwtr.01t

5
e2-source_2m.i → sources/e2_2m.i
View File

@@ -1,7 +1,10 @@
c source definition based on tally_181.txt
c but adapted to model geometry and actual size of Estia beam extraction
c make sure to supply the correct WWINP file
WWP:n,p j j 4 j -1 j 6.55305E14 $ WW was generated for other source scaling
c the source definition with neutrons/s
sdef dir=d1 erg=fdir d2 x=199.98 y=d23 z=d24 vec=1 0 0 tr=101
par=n ara=165.0 wgt=4.125e-3
par=n ara=165.0 wgt=3.6041775E13
si1 -1 0 0.5 0.866 0.9659 0.9848
0.99619 0.9975640 0.998629 0.999390 0.999847 1
sp1 0 5.01272E+12 1.04029E+12 2.01432E+12 1.39792E+12

0
mcstas_source_vs.i → sources/mcstas_source_vs.i
View File

8
source_proton.i → sources/proton.i
View File

@@ -1,5 +1,11 @@
c Original definition of source from proton beam
sdef dir=1 erg=2000 par=9 vec=0.0 1 0.0 x=d1 y=-30 z=d2
c weight windows from external file generated by WWG
c make sure to supply the correct WWINP file
WWP:n,p j j 10 j -1 j 8.7374e15 $ WW was generated for source scaling 1
c energy splitting for higher neutron energies and roulette below 1MeV
esplt:n 0.05 1e-6 0.2 1e-3 1 10 3 100 10 3000
c the source definition with protons/s
sdef dir=1 erg=2000 par=9 vec=0.0 1 0.0 x=d1 y=-30 z=d2 wgt=8.7374e15
si1 A -8 -7.5 -7 -6.5 -6 -5.5 -5 -4.5 -4 -3.5 -3 -2.5 -2 -1.5 -1 -0.5 0
0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5 8
sp1 D 0 0.12109 0.23438 0.33984 0.4375 0.52734 0.60938 0.68359 0.75

8
tallies/bunker_mesh.i Normal file
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@@ -0,0 +1,8 @@
c large mesh tally covering the beamline from monolith
tmesh
rmesh1:n dose 31 1 2 1 trans 1
cora1 500 10i 1000 20i 1500 16i 2300
corb1 -305 5i -55 4i 45 5i 295
corc1 -200 1i -100 5i 100 2i 300
endmd
fm1 8.7374e15

18
tallies/bunker_wall_f4.i Normal file
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@@ -0,0 +1,18 @@
c f4 tally spheres behind collimators in the bunker wall
fc34 neutron flux behind CPC2 and BWC
f34:n 705 706
e34 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq34 e f

36
tallies/chopper_pit_doses.i Normal file
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@@ -0,0 +1,36 @@
c energy deposition dose (MeV/g) for chopper pit components
fc106 deposited energy at chopper disk and spindle
+f106 4121 4131
e106 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq106 e f
c
fc116 deposited energy at VS stages x/z/rot
+f116 (5711 5712) (5721 5722) (5731)
e116 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq116 e f

18
tallies/e1_e2_f4.i Normal file
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@@ -0,0 +1,18 @@
c f4 tally for large spheres just outside the bunker wall at E01 and E03
fc44 neutron flux outside bunker wall E01 and E03
f44:n 708 709
e44 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq44 e f

20
tallies/e1_e2_f5.i Normal file
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@@ -0,0 +1,20 @@
c f5 detector tally just outside the bunker wall at E01 and E03
fc45 neutron flux outside bunker wall E01 and E03
f45:n 730 -1380 0 0.0 1020 -1170 0 0.0
e45 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq45 e f
c 1-255 256 257 268 259-265 266-268 269-508 509-end
pd45 0.001 254r 0.1 0.001 1 0.001 6r 1 2r 0.001 239r 0.1 110r 1 70r

35
tallies/inbunker_f4.i Normal file
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@@ -0,0 +1,35 @@
c f4 tallies often used for reference at selected placed inside the bunker
fc14 neutron flux at BBG
f14:n 701
e14 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq14 e f
fc24 neutron flux before CPC1 and behind CPC1 in beam and next to beam
f24:n 702 704 703
e24 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq24 e f

20
tallies/optical_cave_f5.i Normal file
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@@ -0,0 +1,20 @@
c f5 detector tally besides beam just outside the selene 1/2 separator wall
fc65 neutron flux behind selene1/2 separator
f65:n 1328 -1756 -13 0.0
e65 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq65 e f
c 1-255 256 257 268 259-265 266-268 269-508 509-end
pd65 0.001 254r 0.1 0.001 1 0.001 6r 1 2r 0.001 239r 0.1 110r 1 70r

18
tallies/shutter_f4.i Normal file
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@@ -0,0 +1,18 @@
c f4 tally sphere within the beam just outside the selene 1/2 separator wall
fc54 neutron flux behind instrument shutter
f54:n 707
e54 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq54 e f

20
tallies/shutter_f5.i Normal file
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@@ -0,0 +1,20 @@
c f5 detector tally within the beam just outside the selene 1/2 separator wall
fc55 neutron flux behind instrument shutter
f55:n 1282 -1794 -13 0.0
e55 1e-10 1.58e-10 2.51e-10 3.98e-10 6.31e-10
1e-9 1.58e-9 2.51e-9 3.98e-9 6.31e-9
1e-8 1.58e-8 2.51e-8 3.98e-8 6.31e-8
1e-7 1.58e-7 2.51e-7 3.98e-7 6.31e-7
1e-6 1.58e-6 2.51e-6 3.98e-6 6.31e-6
1e-5 1.58e-5 2.51e-5 3.98e-5 6.31e-5
1e-4 1.58e-4 2.51e-4 3.98e-4 6.31e-4
1e-3 1.58e-3 2.51e-3 3.98e-3 6.31e-3
1e-2 1.58e-2 2.51e-2 3.98e-2 6.31e-2
1e-1 1.58e-1 2.51e-1 3.98e-1 6.31e-1
1e-0 1.58 2.51 3.98 6.31
1e+1 1.58e+1 2.51e+1 3.98e+1 6.31e+1
1e+2 1.58e+2 2.51e+2 3.98e+2 6.31e+2
1e+3 1.58e+3 2.51e+3
fq55 e f
c 1-255 256 257 268 259-265 266-268 269-508 509-end
pd55 0.001 254r 0.1 0.001 1 0.001 6r 1 2r 0.001 239r 0.1 110r 1 70r