Is your feature request related to a problem? Please describe.
Prompt pulse fitting and subtraction has been shown to improve the peak intensities that overlap the prompt pulse in silicon data relative to the existing masking method.
Describe the solution you'd like
Test it out on other data
• Melamine:
A coherent scatterer with a busy diffraction pattern. Cycle 23/1, run 81019
• Melamine with sample environment:
As above, but with a large S/E background and in both short and long TOF windows. Cycle 23/1, run 81020 (30-130) and 81023 (100-200).
• Methyl_acetate:
A very strong coherent scatterer. Cycle 23/2, run 81301 (30-130) and 81300 (100-200).
• NOBF4:
Weak coherent scatterer. Cycle 23/2, run 81102 (30-130).
• TbPO4:
Weak coherent scatterer. Cycle 23/2, run 81050 (30-130)
• CuSO4.5H2O:
Low symmetry incoherent scatterer. Cycle 23/4, run 81877.
Is your feature request related to a problem? Please describe. Prompt pulse fitting and subtraction has been shown to improve the peak intensities that overlap the prompt pulse in silicon data relative to the existing masking method.
Describe the solution you'd like Test it out on other data • Melamine: A coherent scatterer with a busy diffraction pattern. Cycle 23/1, run 81019
• Melamine with sample environment: As above, but with a large S/E background and in both short and long TOF windows. Cycle 23/1, run 81020 (30-130) and 81023 (100-200).
• Methyl_acetate: A very strong coherent scatterer. Cycle 23/2, run 81301 (30-130) and 81300 (100-200).
• NOBF4: Weak coherent scatterer. Cycle 23/2, run 81102 (30-130).
• TbPO4: Weak coherent scatterer. Cycle 23/2, run 81050 (30-130)
• CuSO4.5H2O: Low symmetry incoherent scatterer. Cycle 23/4, run 81877.