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Published cross section for       67   Zn    (  p  ,  n  )    67    Ga  ,  ...
Published Online: September 13, 2022
Fig. 1 Published cross section for 67 Zn ( p , n ) 67 Ga ,   66 Zn ( p , 2 n ) 65 Ga ,   68 Z ( p , 2 n ) 67 Ga ,   66 Zn ( p , n ) 66 Ga ,   67 Zn ( p , 2 n ) 66 Ga , and 68 Zn ... More
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3D projection of the whole magnetic target carrier: ( a ) Target design mad...
Published Online: September 13, 2022
Fig. 2 3D projection of the whole magnetic target carrier: ( a ) Target design made by Alnahwi et al., ( b ) Cross-sectional view of the target replica using inventor for this work, and ( c ) View of our replica on SuperMC More
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Target whole carrier structure replica: ( a ) Model represented on PHITS an...
Published Online: September 13, 2022
Fig. 3 Target whole carrier structure replica: ( a ) Model represented on PHITS and ( b ) Model represented on FLUKA-CERN and FLUKA-INFN More
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The various red symbols are all datasets extracted from EXFOR for the      ...
Published Online: September 13, 2022
Fig. 4 The various red symbols are all datasets extracted from EXFOR for the 68 Zn ( p , n ) 68 Ga channel, and the blue curve is the FLUKA-CERN result at production level [ 34 ] More
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Proton current across same surface areas calculated by PHITS: ( a ) The pro...
Published Online: September 13, 2022
Fig. 6 Proton current across same surface areas calculated by PHITS: ( a ) The proton current entering the target whole structure; it shows a single mono-energetic 17.2 MeV as the initial input and ( b ) Proton current leaving the 0.4 mm aluminum integrated energy degrader, which enters the ... More
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Comparison of the results for the four different codes against the experime...
Published Online: September 13, 2022
Fig. 7 Comparison of the results for the four different codes against the experimental value given by Alnahwi et al. (horizontal axis is not on real scale). More
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Comparison of the results for the four different codes against the experime...
Published Online: September 13, 2022
Fig. 8 Comparison of the results for the four different codes against the experimental value given by Alnahwi et al. (horizontal axis is not on real scale). More
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Comparison of the results for the four different codes compared with the ex...
Published Online: September 13, 2022
Fig. 9 Comparison of the results for the four different codes compared with the experimental value given by Alnahwi et al. using a thickness of 0.051 cm in the codes (horizontal axis is not on real scale). More
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Geometrical configuration of the isotope production facility: ( a ) Room re...
Published Online: September 13, 2022
Fig. 10 Geometrical configuration of the isotope production facility: ( a ) Room resembling the walls and the target in the middle; the green wall is a 10 cm thickness layer of lead, the red wall resembles a 10 cm thickness layer of commercial concrete. ( b ) Target whole structure, the beam comes... More
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Ambient dose rate in mSv/h inside and in the vicinity of the room: ( a ) at...
Published Online: September 13, 2022
Fig. 13 Ambient dose rate in mSv/h inside and in the vicinity of the room: ( a ) at EOB by PHITS, ( b ) at EOB by FLUKA-CERN, ( c ) 10 min after EOB by PHITS, ( d ) 20 min after EOB by PHITS More
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Ambient dose rate distribution in mSv/h across the  z  axis. Blue: at EOB, ...
Published Online: September 13, 2022
Fig. 14 Ambient dose rate distribution in mSv/h across the z axis. Blue: at EOB, red: 10 min after EOB, green: 20 min after EOB. More
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Core layout of MHTGR-350 (adapted from Fig.  3  of Ref.[ 11 ]). Note: there...
Published Online: September 13, 2022
Fig. 1 Core layout of MHTGR-350 (adapted from Fig. 3 of Ref.[ 11 ]). Note: there are 12 fuel columns with RCS fuel blocks. There are 6 (inner ring) + 24 (middle ring) + 24 (outer ring) = 54 fuel columns with regular fuel blocks. More
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Reference fuel block layout (adapted from Fig.  2 - 2  of Ref. [ 12 ]). Not...
Published Online: September 13, 2022
Fig. 2 Reference fuel block layout (adapted from Fig. 2 - 2 of Ref. [ 12 ]). Note: There are 102 large coolant holes (0.793 cm in diameter), and 6 small coolant holes (0.635 cm in diameter). There are 210 fuel holes, each 0.635 cm in diameter. To a first approximation, there is one coolant hole ... More
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Radial cross section view of fuel element geometry (not to scale). Note: Di...
Published Online: September 13, 2022
Fig. 3 Radial cross section view of fuel element geometry (not to scale). Note: Diagram is not to scale. Radial thickness of various coatings and clad regions and other non-fuel regions are exaggerated for better visual understanding. More