Integrated asymmetry
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Integrated asymmetry calculation
where
- D2O, detector Up Wup - weighted coefficient (Nai or Ref)
- H2O, detector Up Wup - weighted coefficient (Nai or Ref)
- D2O, detector Side Wup - weighted coefficient (Nai or Ref)
- H2O, detector Side Wup - weighted coefficient (Nai or Ref)
- For detector A summation is over [1000:1600] bin numbers
- For detector C summation is over [900:1600] bin numbers
Error calculation
If assume:
what is <math>\sqrt{up}</math> ? Does <math>\sqrt{up}</math> = number of counts in in the detector up spectrum as suggested above? Why not use <math>N_{up}</math> as variable. If distribution is Binomial (detector yes/no) then width of distribution is <math>1.265\sqrt{N}</math> = 2 times e error. Relative error = <math>\frac{error}{Ave} = \frac{0.6325 \sqrt{N}}{N/2}</math> If you are measuring total number of neutrons detected then you will have binomial if you break up the time spectrum into bins and don't integrate then probability distribution is combination of detection probability and time measurement probability.
Then
where
Cases was analysed
Det A (was analized all possible combination):
D2O Up, files# [40,56,102,108,134,205,210,230];
H2O Up, files# [44];
D2O Side, files# [48,74,78,82,86,90,94,146,180,190,225,235];
H2O Side, files# [52];
Det C (was analized all possible combination):
D2O Up, files# [49,75,79,83,87,91,95,147,181,191,226,236];
H2O Up, files# [53];
D2O Side, files# [41,57,103,107,135,206,211,231];
H2O Side, files# [45];
Weighted coefficients was used
Results
Table 1: Det A, weighted with
Table 2: Det C, weighted with
Table 3: Det A, weighted with
Table 4: Det C, weighted with
Change the X-axis to nanosecond or neutron energy (TF). A:Will do it.