1 ##dune_dp_radiological_model.fcl
2 # parameters for a radiological generation generator. Currently, it generates radiologicals within rectangular prisms
3 # with sides parallel to the x, y, and z axes, and within a specified time window. The parameters Nuclide through
4 # T1 are arrays, so that many volumes can be specified to be radioactive with different nuclides.
6 # Author: Jason Stock (jason.stock@mines.sdsmt.edu)
7 # 2018-09-27 Version 1. Only bulk contaminants are considered here, using rates matched exactly to the Single Phase LAr radiological model.
8 # Dimensions provided by Jose Soto ( jsoto@fnal.gov )
10 # We source the generators from the SP so that the bulk contaminant rates are the same between the SP and DP (LAr is LAr)
17 #include "services_dune.fcl"
18 #include "dune_radiological_model.fcl"
23 dunedp10kt_39ar: @local::dune10kt_1x2x6_39ar
24 dunedp10kt_39ar.X0: [ -810.0 ]
25 dunedp10kt_39ar.X1: [ 700.0 ]
26 dunedp10kt_39ar.Y0: [ -755.0 ]
27 dunedp10kt_39ar.Y1: [ 755.0 ]
28 dunedp10kt_39ar.Z0: [ -100.0 ]
29 dunedp10kt_39ar.Z1: [ 6100.0 ]
30 dunedp10kt_39ar.T0: [ -7500000 ]
31 dunedp10kt_39ar.T1: [ 7500000 ]
33 dunedp10kt_42ar: @local::dune10kt_1x2x6_42ar
34 dunedp10kt_42ar.X0: [ @sequence::dunedp10kt_39ar.X0 ]
35 dunedp10kt_42ar.X1: [ @sequence::dunedp10kt_39ar.X1 ]
36 dunedp10kt_42ar.Y0: [ @sequence::dunedp10kt_39ar.Y0 ]
37 dunedp10kt_42ar.Y1: [ @sequence::dunedp10kt_39ar.Y1 ]
38 dunedp10kt_42ar.Z0: [ @sequence::dunedp10kt_39ar.Z0 ]
39 dunedp10kt_42ar.Z1: [ @sequence::dunedp10kt_39ar.Z1 ]
40 dunedp10kt_42ar.T0: [ @sequence::dunedp10kt_39ar.T0 ]
41 dunedp10kt_42ar.T1: [ @sequence::dunedp10kt_39ar.T1 ]
43 dunedp10kt_85kr: @local::dune10kt_1x2x6_85kr
44 dunedp10kt_85kr.X0: [ @sequence::dunedp10kt_39ar.X0 ]
45 dunedp10kt_85kr.X1: [ @sequence::dunedp10kt_39ar.X1 ]
46 dunedp10kt_85kr.Y0: [ @sequence::dunedp10kt_39ar.Y0 ]
47 dunedp10kt_85kr.Y1: [ @sequence::dunedp10kt_39ar.Y1 ]
48 dunedp10kt_85kr.Z0: [ @sequence::dunedp10kt_39ar.Z0 ]
49 dunedp10kt_85kr.Z1: [ @sequence::dunedp10kt_39ar.Z1 ]
50 dunedp10kt_85kr.T0: [ @sequence::dunedp10kt_39ar.T0 ]
51 dunedp10kt_85kr.T1: [ @sequence::dunedp10kt_39ar.T1 ]
53 dunedp10kt_222rn: @local::dune10kt_1x2x6_222rn
54 dunedp10kt_222rn.X0: [ @sequence::dunedp10kt_39ar.X0 ]
55 dunedp10kt_222rn.X1: [ @sequence::dunedp10kt_39ar.X1 ]
56 dunedp10kt_222rn.Y0: [ @sequence::dunedp10kt_39ar.Y0 ]
57 dunedp10kt_222rn.Y1: [ @sequence::dunedp10kt_39ar.Y1 ]
58 dunedp10kt_222rn.Z0: [ @sequence::dunedp10kt_39ar.Z0 ]
59 dunedp10kt_222rn.Z1: [ @sequence::dunedp10kt_39ar.Z1 ]
60 dunedp10kt_222rn.T0: [ @sequence::dunedp10kt_39ar.T0 ]
61 dunedp10kt_222rn.T1: [ @sequence::dunedp10kt_39ar.T1 ]
63 #neutron can't copy single phase because we have a different number of dimensions.
64 #dunedp10kt_neutron: @local::dune10kt_1x2x6_neutron
68 module_type: "RadioGen"
69 Nuclide: ["Concrete_DUNE1","Concrete_DUNE1","Concrete_DUNE1","Concrete_DUNE1","Concrete_DUNE1","Concrete_DUNE1"]
70 Material: [".*",".*",".*",".*",".*",".*"]
71 BqPercc: [0.0000076,0.0000076,0.0000076,0.0000076,0.0000076,0.0000076] #NOTE* This value is hard coded (due to different number of producing volumes than single phase.
73 #APA #CPA #Y+ #Y- #Z+ #Z-
74 X0: [ 599.0, -600.0, -600.0, -600.0, -600.0, -600.0 ]
75 X1: [ 600.0, -599.0, 600.0, 600.0, 600.0, 600.0 ]
76 Y0: [ -600.0, -600.0, 599.0, -600.0, -600.0, -600.0 ]
77 Y1: [ 600.0, 600.0, 600.0, -599.0, 600.0, 600.0 ]
78 Z0: [ 0.0, 0.0, 0.0, 0.0, 5999.0, 0.0 ]
79 Z1: [ 6000.0, 6000.0, 6000.0, 6000.0, 6000.0, 1.0 ]
80 T0: [ @sequence::dunedp10kt_39ar.T0,
81 @sequence::dunedp10kt_39ar.T0,
82 @sequence::dunedp10kt_39ar.T0,
83 @sequence::dunedp10kt_39ar.T0,
84 @sequence::dunedp10kt_39ar.T0,
85 @sequence::dunedp10kt_39ar.T0 ]
86 T1: [ @sequence::dunedp10kt_39ar.T1,
87 @sequence::dunedp10kt_39ar.T1,
88 @sequence::dunedp10kt_39ar.T1,
89 @sequence::dunedp10kt_39ar.T1,
90 @sequence::dunedp10kt_39ar.T1,
91 @sequence::dunedp10kt_39ar.T1 ]
1.8.11
