/ 1D/longitudinal simulation with space charge and proper units!
.[Later] Combine into 2+1D model (bendless solver + E,t?)

Stuff to put in:
- Graphs
  / Energy, Voltage, Phase vs. time (RF programme)
    / For both machines (ISIS always 1RF)
  / Tune depressions, bunching factor (and longitudinal voltage ratio?) vs. time
    / For both machines?  ISIS include transmission too?
  / t extent and RMS (demonstrating nufact capable)
  / E extent and RMS; tRMS*ERMS product (sanity check)
  ? Some phase space pictures e.g. ISIS injection, ISIS output, VFFAG output
- Tables
  / RF time/voltage/phase table for VFFAG
  / Bunch charge vs. energy and power at 70.44, 800, 12000 MeV and losses
    / Also compare 10% more injected beam (220uA vs. 200uA equiv.?)
- Discussion
  - Explain longitudinal affects transverse
  - Simulation based on circumference function
  - g factor must be evaluated [ref Baartman?, My note?]
    + Formula rho1D' -> E_z etc.
  - ISIS simulations using CRP parameters [ref private comms]

  - Define "space charge ratio"
    - Keil-Schnell (?) criterion [ref Hofmann,Pedersen sect. Microwave instabilities]
  + Give tune shift formula used [ref? Laslett?]
    - Discrepancy of using 30 vs. 25 mm.mrad em_rms@800MeV

  - VFFAG RF system
    - Vaguely based on 2RF cite PAC'09, # of gaps needed
    - Discuss VFFAG acceleration bucket size issues

  - Suitable for neutrino factory

  - Future/issues
    - RF won't fit diagonally
    - Mori's racetrack as option