370 likes | 484 Views
Uranium Garlea /Agnew. Maud analysis, 3 orientations, 5 minutes per orientations, 42 histograms per orientation, 10 th order E-WIMV
E N D
Uranium Garlea/Agnew Maud analysis, 3 orientations, 5 minutes per orientations, 42 histograms per orientation, 10th order E-WIMV Note: E-WIMV is less accurate on the rim of the PFs as there are less sampling points than in the center. Therefore, if the absolute maximum is located on the rim, the sample orientation would need to be adjusted to move the maximum to the center. The type of the texture will not change, but changes of maxima were observed up to 40% for very strong textures between the maximum on the rim or in the center of the PFs. See slides 31 and 32 for a minor problem with the data analysis that may trigger re-analysis of the data if the problem is deemed significant.
dU_Comp_8_BC1001 (max is ~6 m.r.d.!)
Garlea, dU_Tens_1_BC678 (max is ~6 m.r.d.!)
Garlea, dU_Tens_2_BC679 (max is ~6 m.r.d.!)
Garlea, dU_Tens_3_BC680 (max is ~6 m.r.d.!)
Garlea, dU_Tens_4_BC681 (max is ~6 m.r.d.!)
Garlea, dU_Comp_1_BC682 (max is ~6 m.r.d.!)
Garlea, dU_Comp_2_BC683 (max is ~5.3 m.r.d.!)
Garlea, dU_Comp_3_BC684 (max is ~5.8 m.r.d.!)
Garlea, dU_Comp_3_BC684 (max is ~6.2 m.r.d.!) 60 degree detectors had DIFC problem which caused them to be more or less ignored for most panels. This analysis has this problem fixed with minor changes. If these changes are deemed significant, we could re-run all analyses, but my judgment would be that for VPSC input data the differences will be not significant.
Garlea, dU_Comp_4_BC685 (max is ~6.9 m.r.d.!)
Garlea, dU_Comp_5_BC1003 (max is ~5.5 m.r.d.!)
Garlea, dU_Comp_7_BC1000 (max is ~6.9 m.r.d.!)
Garlea, dU_Comp_9_BC1002 (max is ~6.1 m.r.d.!)
Garlea, dU_Comp_TT_BC686 (max is ~6.0 m.r.d.!)