Mike Billing has suggested that we try the tune vs. current measurements at different RF voltages.  I suppose that would require first determining how low we can make the RF voltage and still store a reasonable current.

Below is a list of ideas I've gathered for Sunday.  Anything else we should add to the list?

Experiments we should really try to fit in:
1) At high RF voltage, adjust balance and record horizontal beam size.  This would be like Dan's C8 scan, except with vBSM hsize and RF balance as the knob.  This would establish if the V15 cancellation is optimal.
2) Obtain a rough "max current" vs. RF voltage plot.
3) Tunes vs. Current at 6.3 MV.
4) Tunes vs. Current at one or two lower RF voltage settings.
5) LET IBS decay with V15 managed lattice (same experiment as previous two items except we now have the sawtooth shaker off).

Experiments it would nice to do or that we will decide to do after thinking about the results of items 1-5:
6) Low current, low RF voltage vertical beam size measurements after full round of LET corrections.
7) Generate global coupling using skew quads and take decay
8) Decays vs. RF
9) Decays vs. C8
10) LET Decay at Qx > Qy
12) Gather 32768 turn data along any instabilities we encounter.
13) Turn on sawtooth shakers and measure tune along any instabilities we should encounter.
14) Try to explain a species-dependent tune shift, if one is detected.
15) We could head to 2.3 GeV after item 5.  IBS there seems to be strong and instrumentation seems to work well.

what else????


-Mike