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[ <--- prev -- ] [ HOME ] [ -- next ---> ] ASSIGNMAtdefines the correspondence between region indices (or names) and material
indices (or names). It defines also regions with magnetic and/or electric
fields. There is the possibility of selectively changing region material to
vacuum/blackhole (and/or switching on/off possible fields) when transporting
radioactive decay products. Radioactive decay products originating from
regions switched to vacuum/blackhole are ignored. This is helpful for
situations where the emissions of an activated object in a complex
environment have to be evaluated standalone.
WHAT(1) = material index, or material name No default WHAT(2) = lower bound (or name corresponding to it) of the region indices with material index equal or corresponding to WHAT(1). ("From region WHAT(2)...") Default = 2.0 WHAT(3) = upper bound (or name corresponding to it) of the region indices with material index equal or corresponding to WHAT(1). ("...to region WHAT(3)...") Default = WHAT(2) WHAT(4) = step length in assigning indices ("...in steps of WHAT(4)") Default = 1.0 WHAT(5) = 1.0 : a magnetic field is present (no electric field) in the region(s) defined by WHAT(2), (3), and (4), for both prompt and radioactive decay products = 2.0 : an electric field is present (no magnetic field) in the region(s) defined by WHAT(2), (3), and (4), for both prompt and radioactive decay products = 3.0 : both magnetic and electric fields are present in the region(s) defined by WHAT(2), (3), and (4), for both prompt and radioactive decay products = 4.0 : a magnetic field is present (no electric field) in the region(s) defined by WHAT(2), (3), and (4), for prompt products only = 5.0 : an electric field is present (no magnetic field) in the region(s) defined by WHAT(2), (3), and (4), for prompt products only = 6.0 : both magnetic and electric fields are present in the region(s) defined by WHAT(2), (3), and (4), for prompt products only = 7.0 : a magnetic field is present (no electric field) in the region(s) defined by WHAT(2), (3), and (4), for radioactive decay products only = 8.0 : an electric field is present (no magnetic field) in the region(s) defined by WHAT(2), (3), and (4), for radioactive decay products only = 9.0 : both magnetic and electric fields are present in the region(s) defined by WHAT(2), (3), and (4), for radioactive decay products only = 0.0 : ignored < 0.0 : resets the default (no field) in the region(s) defined by WHAT(2), (3), and (4) Default = 0.0 (ignored) WHAT(6) = material index, or material name for a possible alternate material for radioactive decay product transport. Only vacuum and blackhole are allowed. (See Note 5 below). Default = same as for prompt products SDUM : not used Default (option ASSIGNMAt not requested): not allowed! each region must be explicitely assigned a material, or vacuum or blackhole (see Note 3). No magnetic and no electric field is the default for all regions. Notes:
Example (for an input number-based): *...+....1....+....2....+....3....+....4....+....5....+....6....+....7....+....8 MATERIAL 13.0 27.0 2.7 10.0 0.0 0.0 ALUMINUM ASSIGNMA 10.0 1.0 15.0 0.0 1.0 0.0 ASSIGNMA 2.0 5.0 17.0 6.0 -1.0 0.0 ASSIGNMA 2.0 16.0 18.0 2.0 0.0 0.0 * The above definitions mean that all regions from 1 to 15 are * aluminium with a magnetic field, except regions 5 and 11 which are * vacuum without any magnetic field. Regions 16, 17 and 18 are also * vacuum without field. * Note that in the above example material 10 has been defined * overriding the pre-defined FLUKA aluminium material, but keeping * the same material number. The corresponding name-based input cards could be (using arbitrary names): ASSIGNMA ALUMINUM FirstReg Reg15 0.0 1.0 0.0 ASSIGNMA VACUUM FifthReg Reg17 6.0 -1.0 0.0 ASSIGNMA VACUUM Reg16 Reg18 2.0 0.0 0.0 |
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