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Using CDF and D0 to Understand the Tevatron

Using CDF and D0 to Understand the Tevatron. Jean Slaughter DOE Review July 21, 2003. Three Ways to Use CDF and D0 Data. Computed versus measured luminosity Cross check on instrumentation, b * Size of the luminous region versus z Information on lattice at interaction points, emittances

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Using CDF and D0 to Understand the Tevatron

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  1. Using CDF and D0 to Understand the Tevatron Jean Slaughter DOE Review July 21, 2003

  2. Three Ways to Use CDF and D0 Data • Computed versus measured luminosity • Cross check on instrumentation, b* • Size of the luminous region versus z • Information on lattice at interaction points, emittances • Use silicon vertex detectors for very accurate determination • Stan Lai, William Trischuk, U. of Toronto, et al • Juan Estrada, Avdhesh Chandra, D0, et al • sz of proton and anti-proton bunches • Time of flight and Central Tracking Chamber in CDF • Mathew Jones, U. of Penn. Using CDF and D0 Information – July 2003 -Slaughter

  3. Calculated Luminosity . (1) N= numbers of protons, anti-protons per bunch (109) B = number of bunches (36) f = revolution frequency (47.7 KHz) Brgr = relativistic factor, 1045 b* = interaction point (cm, assumed equal in x and y). H= hourglass factor, function of sl, bunch length, b* e = transverse emittances Using CDF and D0 Information – July 2003 -Slaughter

  4. Measured Luminosity • CDF – CLC (Cherenkov Luminosity Counter) • D0 – system of scintillation counters • Accurate measurement crucial to experiments for cross section determination • Goal is 5% systematic error, < 1% statistical error • Systematic difference between D0 and CDF • Ratio is linear with luminosity • 10% difference at 4.0 1031 Using CDF and D0 Information – July 2003 -Slaughter

  5. Ratio of D0 to CDF Luminosity Using CDF and D0 Information – July 2003 -Slaughter

  6. Components to Calculated Luminosity • Number of protons, anti-protons • FBI (Fast Bunch Integrator) or SBD (Sampled Bunch Display) • Transverse emittances • SyncLite • Bunch lengths • SBD Using CDF and D0 Information – July 2003 -Slaughter

  7. D0 Measured Luminosity versus Calculated Luminosity Using CDF and D0 Information – July 2003 -Slaughter

  8. CDF measured Luminosity versus Calculated Luminosity Using CDF and D0 Information – July 2003 -Slaughter

  9. CDF Ratio Using CDF and D0 Information – July 2003 -Slaughter

  10. D0 Ratio Using CDF and D0 Information – July 2003 -Slaughter

  11. Use Silicon Detectors for Size of the Luminous Region . Nominal value has * = 0.35 cm. Two methods 1. vertices 2. distance of closest approach for 2 track pairs *=0.35 cm , =2E-7 cm *=0.40 cm , =2E-7 cm *=0.35 cm , =3E-7 cm Using CDF and D0 Information – July 2003 -Slaughter

  12. Method 1 - Use Vertexes • Given a distribution of vertexes (xi,yi ,zi) then observedwidth is: • σbeam = width of the luminous region • σvertex = error in the vertex position • Problem - estimate for σvertex is smaller than the real error in the vertex, so find k from the data doing a linear fit Using CDF and D0 Information – July 2003 -Slaughter

  13. CDF results Using CDF and D0 Information – July 2003 -Slaughter

  14. Using CDF and D0 Information – July 2003 -Slaughter

  15. Results for X – D0 sigma • Stores: • 2312 • 2315 • 2341 • 2420 • 2507 • 2523 • 2540 store z (cm) emittance z at minimum size store store Using CDF and D0 Information – July 2003 -Slaughter

  16. Results for Y – D0 beta* sigma • Stores: • 2312 • 2315 • 2341 • 2420 • 2507 • 2523 • 2540 store z (cm) Z of minimum emittance store store Using CDF and D0 Information – July 2003 -Slaughter

  17. Comparing D0 pseudo-emittance with Tevatron measurements Using vertexes at DØ Measured at Tevatron store store e = (ep epbar)/(ep+ epbar), ep epbar are average over h and v for p and pbar Using CDF and D0 Information – July 2003 -Slaughter

  18. Method 2 - Track Pairs • Use distance of closest approach (dca) parameter for pairs of tracks This assumes a circular beam. If the beam is not circular the relation is a little more complicated. Do has done it both ways. If you include uncorrelated measurement errors for this tracks, the equation does not change. The error terms cancel in the formula above. Using CDF and D0 Information – July 2003 -Slaughter

  19. Distance of Closest Approach Plots dca phi dca beam size (cm) Z (cm) Using CDF and D0 Information – July 2003 -Slaughter

  20. Comparing Results – Beam Positions x position y position z (cm) z (cm) The beam position is the same, when measured with the two methods (vertexes in black and tracks in blue). All scales in cm. Using CDF and D0 Information – July 2003 -Slaughter

  21. Comparing Results- Sigma versus Z Vertex method gives consistently a beam that is 3-5 um larger in width and with less curvature (larger *). Great cross check on systematics. Under investigation. (vertexes in black and tracks in blue) All scales in cm. Using CDF and D0 Information – July 2003 -Slaughter

  22. Summary • Comparison of measured and calculated luminosities agree within the erros • Work to reduce the errors on each element in calculated luminosity • Size of luminous regions • Interplay between understanding experiment tracking and understanding the Tevatron lattice and emittances • Current formula is simplistic • Adding dN/dz, (the number of vertices as a function of z) will help • Need to revive the work on the length of p and pbar bunches using the CDF time-of-flight and COT tracking Using CDF and D0 Information – July 2003 -Slaughter

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