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e+ Vertical Beam Size during CESR-c Collisions

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Presentation on theme: "e+ Vertical Beam Size during CESR-c Collisions"— Presentation transcript:

1 e+ Vertical Beam Size during CESR-c Collisions
E. Tanke, R. Holtzapple Data taken 8/3/2006

2 e+ Average Vertical Beam Size:
Parasitic measurements made during CESR-c colliding beams. The vertical distribution is averaged over 100 turns (10,000 turn total). Fit each PMT profile to a Gaussian distribution to determine the sv(15.6 pixels/mm calibration). Three separate data sets taken at different PMT voltages. Typical 100 turn average e+ distribution. PMT=550V Goodness of fit=0.97 PMT=600V Goodness of fit=0.95 PMT=650V Goodness of fit=0.96

3 Average sv for three different PMT voltages.
e+ vertical beam size decreases along each train! e+ sv decreases with PMT voltage! Vertical beam size is ~20% larger than previous measurement on 8/1/06.

4 Mean position of vertical distribution for each train.
e+ vertical position increases along each train.

5 Mean position of vertical distribution increases along the bunch train.
e+ sv decreases with PMT voltage!

6 Single bunch current Correlation between sv and mean position of the vertical distribution.

7 e+ Single Turn Vertical Beam Size:
Single turn vertical distribution for 500 turns. Typical single turn distribution. Noisy signal! PMT=550V Goodness of fit=0.51 PMT=650V Goodness of fit=0.65

8 Large oscillation in vertical beam size.
Goodness of fit typically between GOF>0.95 for average sv.

9 Summary The e+ sv decreases along each trains. The relative mean position of the distribution increases along each train. This is consistent with previous measurements (8/1/06). sv decreases with PMT voltage. The single turn vertical distribution is noisy. The goodness of fit is below an expectable level for a reliable measurement.

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