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p = p from outer helix of track (global if available, primary otherwise)

Wiki MarkupBSMD\[E,P\] total ADC = total ADC of 11 strips underneath central tower

Of the 217,866 tracks, 150,605 were associated with a tower hit more than 2.5 sigma above pedestal.

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At this point, there's no clear E/p peak so things are looking a little troubling.

Fig 1:

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name	all_histo_0.pdf

However, in the BSMDP total ADC spectrum there is a clear peak at the saturation boundary, which should correspond to electrons.unmigrated-wiki-markup

*Fig 2:* !

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name	bsmdp_0.pdf

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I then apply a cut on BSMDP total ADC > 800.

This leaves only 3,160 tracks, put gives a very significant E/p peak around 10.1. Wiki Markup*Fig 3:* !9.

Fig 3:

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name	all_histo_1.pdf

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When I look at BSMDE total ADC vs E/p, I see that the remaining background is below around 500 ADC, so I add another cut there and remove the rather strong cut on BSMDP.unmigrated-wiki-markup

*Fig 4:* !

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name	bsmdevep_1.pdf

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I'm left with 20,100 and a very strong E/p peak at just above 1.unmigrated-wiki-markup

*Fig 5:* !

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name	all_histo_2.pdf

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Here are some more plots of these electronsunmigrated-wiki-markup

*Fig 6:* p vs E/p: !

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name	pvsep_2.pdf

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This band in the upper right looked a little peculiar to us, but we found that it corresponds to the L2 trigger threshold, which was at \ ~13GeV E_T (the L0 threshold is also visible):unmigrated-wiki-markup

*Fig 7*: E_T spectrum: !

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name	te_2.pdf

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The shape of the band can be explained by the track p smearing: Wiki Markup*

Fig 8*: !:

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name	tevsp_2.pdf

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I also looked at the relation between energy in the tower cluster and the BSMD(E,P) ADC totals:

Fig 9 (BSMDE vs E_T): Image Added
Fig 10 (BSMDP vs E_T): Image Added

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