PhD Thesis -- Results and Conclusion
-RPM 08.02.01

CHAPTER COMMENTS:

This reports the ultimate results and applies them to the Larger Body
of Knowledge.

I should include the fit results for PmuXi.


CHAPTER OUTLINE:

Results Revealed

- Include PmuXi results here, with a note that they don't really
  count.

- Opened-box results for each data set (use fixed-eta fits)

  - Show a table of the McFit results for all sets, with chi2/dof
    values; also show the plots I made with the constant fits.

- Final answers, with combined systematic and statistical errors.

  - Show another table of the overall MP diffs from the McFits, the
    blackbox values, the corrections, and the final results, with both
    errors.

- Comparison to previous results (TWIST, pre-TWIST).  

- Whitebox consistency check.

Results in Context

- Description of the 2005 Global Analysis, and my update.  This works
  my result into the overall body of knowledge, and I can go from
  there.

- Consequences of results wrt Standard Model

  - Implicit PmuXi value.

- Consequences of results wrt some SM Extensions.

  - QmuR

  - LRS zeta

    - rho makes an impact; delta doesn't do much until we have better
      PmuXiDelta/Rho limits.  (Improved PmuXi limits will do it.)

Future Work

- This should probably be a summary of work suggested/mentioned in
  previous sections.  Probably mainly addressing my main systematics.
  I can be brief.  Don't forget back-refs.

- Lots of development in the works.

- DDSTRs

- More stats = better ecal measurement.

- Ecal can be modified to take resolution diffs into account, reducing
  resolution systematic.

- Simulation can be tuned to improve the positron interactions match,
  particularly the delta ray production rate.


Conclusion

- New measurement of rho and delta, with precision twice as good as
  before.

- Consistent with SM, placing tighter constraints on possible
  extensions.

- Good propects for higher precision from TWIST.