1 / 17

Introduction Context of the measurement Status of documentation Analysis overview Open issues

A Study of Charged Kaons Produced in Association with Mesons Godparent Kick-Off Meeting Matthew Jones/ Niharika Ranjan. Introduction Context of the measurement Status of documentation Analysis overview Open issues. Introduction.

syshe
Télécharger la présentation

Introduction Context of the measurement Status of documentation Analysis overview Open issues

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. A Study of Charged Kaons Produced in Association with MesonsGodparent Kick-Off MeetingMatthew Jones/NiharikaRanjan • Introduction • Context of the measurement • Status of documentation • Analysis overview • Open issues Godparent meeting

  2. Introduction • This analysis studies the charge-flavor correlations that are present in the early stages of heavy quark fragmentation • The two-track trigger provides large samples of fully reconstructed charm mesons • The TOF and COT (dE/dx) allow statistical discrimination between kaons, pionsand protons. • More directly associated with fragmentation process rather than correlations due to strong decays such as . Godparent meeting

  3. Context • We know that heavy quarks need a harder fragmentation function • Fragmentation parameters tuned to inclusive properties of jets. • What about quarks produced in the next fragmentation branch? Godparent meeting

  4. Context • Of practical importance for B flavor tagging • Effectiveness of same side kaon tag predicted using string fragmentation model in Pythia • Can we check this with other heavy quarks? Godparent meeting

  5. Documentation • Technical notes: • Note 10662: Analysis description • Note 10272: Universal curve parametrization • Note 10209: TOF residual parametrization • Note 9749: Prompt/secondary discrimination • Blessed results: • Blessing presentation:February 2nd, 2012 • Questions and Answers • Public web page • Note 10704: Public note • Older results: • B+/B0/Bs-Kaon correlations: Note 8137 Godparent meeting

  6. Analysis Overview • Data sample: xbhd0d (360 pb-1) • Select Ds+/D+ φπ+, φK+K- • Same final state, common systematics • Fit mass distribution separately in each pT range. • Fitted pdf is later used to calculate the likelihood that a decay is in each of the 4 categories. Godparent meeting

  7. Analysis Overview • Two sources of Ds+/D+ mesons: • Charm fragmentation • Decays of bottom hadrons • Discriminate between them using their impact parameter measurement: Ds+K+K-π+ Ds+K+K-π+ p.v. B-decay p.v. Charm fragmentation Non-zero impact parameter (d0) Godparent meeting

  8. Analysis Overview • Prompt component: impact parameter distribution determined by d0 resolution (double Gaussian function). • Secondary component: distribution in b-decays convoluted with resolution • Approximately Lorentz invariant, insensitive to spectator quarks in B decays • Simulate exclusive B decays, apply trigger and event selection. • Parametrize generator-level impact parameter distribution with sum of two exponentials. Godparent meeting

  9. Analysis Overview • Impact parameter pdf is fit separately in five ranges of pT • Likelihood for prompt component of Ds+/D+/background determined from product of mass and impact parameter pdf’s. Godparent meeting

  10. Particle Identification • Use TOF to measure particle fractions by fitting pion Δt residual distribution. • TOF resolution function calibrated using pure sample of pionsfrom D*+D0π+ decays. Godparent meeting

  11. TOF Resolution Function • Un-binned likelihood fit to Δtπ and Δm. • Kaon and proton response assumed to be the same, but shifted in time. Godparent meeting

  12. dE/dx Response • Analyze charged tracks in a cone around the D*+ candidates. • Fit parameters in universal curve and resolution function. • Constrain particle fractions using TOF • Fit fractions using likelihood function constructed from the product of TOF and z(dE/dx) pdf’s. Godparent meeting

  13. Calibration Samples • D*+D0π+ decays provide a pure sample of pions. • φK+K- decays provide pure sample of kaons. • Biases in particle fraction measurements parametrized using • Measured fractions corrected using measured biases in calibration samples • Statistical uncertainty in bias coefficients propagated as systematic uncertainties. Godparent meeting

  14. Associated Particle Production • Consider charged particles produced in a cone of radius ΔR < 0.7 around the Ds+/D+ candidate • Select the track with maximum pT • In 77% of the cases there is only one charged track • In the remaining 23% we have to pick one out of two or three tracks in the cone • Measure particle fractions around prompt/secondary Ds+/D+/background components for same-sign and opposite-sign charge combinations. Godparent meeting

  15. Results • As expected based on our naïve model for fragmentation, opposite sign kaon production is enhanced around Ds+ compared to D+. • Like-sign kaon production is similar around Ds+ and D+. • PYTHIA and HERWIG both have similar trends. Godparent meeting

  16. Results Godparent meeting

  17. Open Issues • Is the structure of the PRD draft clear? • Is each section clear? • Are there additional figures that would be useful? Eg. φK+K- mass distribution. • Additional quantitative information regarding efficiencies, acceptance, … • What is the main result? How can we strengthen the conclusions? • Suggestions? Godparent meeting

More Related