Presentation is loading. Please wait.

Presentation is loading. Please wait.

Studies of open heavy flavour production at LHCb Artur Ukleja (The Andrzej Sołtan Institute for Nuclear Studies, Warsaw) on behalf of the LHCb Collaboration.

Published byNoel Johnson Modified over 9 years ago

Similar presentations

Presentation on theme: "Studies of open heavy flavour production at LHCb Artur Ukleja (The Andrzej Sołtan Institute for Nuclear Studies, Warsaw) on behalf of the LHCb Collaboration."— Presentation transcript:

1 Studies of open heavy flavour production at LHCb Artur Ukleja (The Andrzej Sołtan Institute for Nuclear Studies, Warsaw) on behalf of the LHCb Collaboration XIV International Conference on Hadron Spectroscopy München, 13-17 June 2011

2 Outlook A.Ukleja Studies of open heavy flavour production at LHCb16/06/20112 Motivation Inclusive cross-section to produce b-flavoured hadrons (two measurements):  semileptonic:  inclusive J/  (  ):  also measured open charm cross-section ≈ 20 times higher than b cross-section Fragmentation fractions:  f s / (f u +f d )  using semileptonic modes:  f  b / (f u +f d )  using semileptonic modes:  f s / f d  using hadronic modes: Summary

3 Motivation A.Ukleja Studies of open heavy flavour production at LHCb16/06/20113 Knowledge of b-yield is critical in ascertaining sensitivity of experiments in B flavour sector (searching of new sources of CPV) b-flavour hadrons cross-section can be compared to QCD predictions  also needed to estimate sensitivity to NP in B decays Fragmentation fractions f s / f d input to inclusive b cross-section measurement f s needed for all B 0 s branching ratios measurement In particular for precise measurements Fragmentation fraction f  b : CDF’s value is substantially larger then LEP’s explained by CDF: it’s because of difference of

4 b or anti-b hadrons cross-section: using b→D 0 X   A.Ukleja Studies of open heavy flavour production at LHCb16/06/20114 D 0 →K   + D from b (Signal) Prompt D (Back- ground) Background >> Signal  D from b: large IP (the smallest distance between D reconstr. trajectory and PV)  Prompt D and Dfb components can be separated using IP with respect to the closest PV  Prompt D 3 nb -1 IP of D 0 NO  requirement PV Prompt D: IP ≈ 0 D from b: IP > 0

5 b or anti-b hadrons cross-section: using b→D 0 X   A.Ukleja Studies of open heavy flavour production at LHCb16/06/20115 Now: Background (solid) << Signal (dashed)  D0→K+D0→K+ RS WS To select decay chain we match D 0 candidates with tracks identified as muons: RS combinations:  sign of charge the same as K in D decay WS combinations: opposite signs of charges of K and  IP of D 0 ; Now  required 12 nb -1 Prompt D (Background) Prompt D (Background) D from b (Signal) sidebands As expected: prompt yields are consistent between RS and WS

6 Tracking efficiency10 % Luminosity10 % 5 % b or anti-b hadrons cross-section: using b→D 0 X   A.Ukleja Studies of open heavy flavour production at LHCb16/06/20116  D 0 →K   + (MCFM) Dominant systematics: [Phys.Lett.B694,209 (2010)] Summing over  (2<  <6) [using LEP frag. fractions]:  (pp→H b X) = (75.3 ± 5.4 ± 13.0)  b (stat) (syst)  consistent with predictions The measured value changes if the b-hadron fractions differ If Tevatron frag. fractions are used:  (pp→H b X) = (89.6 ± 6.4 ± 15.5)  b Total b anti-b cross-sections (extrapolate using Pythia):  (pp→H b X) = (284 ± 20 ± 49)  b Using Tevatron frag. fractions result increases by 19%

7 b or anti-b hadrons cross-section: using b→J/  X A.Ukleja Studies of open heavy flavour production at LHCb16/06/20117 Pseudo lifetime used to separate prompt and J/  from b: J/  →    + PV b Prompt J/  : t z ≈ 0 J/  from b: t z > 0 J/  from b:

8 b or anti-b hadrons cross-section: using b→J/  X A.Ukleja Studies of open heavy flavour production at LHCb16/06/20118 J/  →    + Tracking efficiency 8 % Luminosity10 % BR(b→J/  X) 9 % Dominant systematics: [Submitted to Eur.Phys.J C: hep-ex/1103.0423] Measured cross-sections depend on y and p T Total – extrapolate using Pythia (using LEP frag. frac.):  (pp→H b X) = (288 ± 4 stat ± 48 syst )  b (2% change when using Tevatron fractions is included in systematic error) Good agreement among both measurements from :  (pp→H b X) = (284 ± 20 ± 49)  b Good agreement with QCD predictions

9 Fragmentation fractions A.Ukleja Studies of open heavy flavour production at LHCb16/06/20119 Input to inclusive b cross-section measurement f s needed for all B 0 s branching ratios measurement  in particular for precise measurements Two methods: 1)semileptonic modes: 1)hadronic modes: Probability of b quark hadronizing with an antiquark (anti-d,u,s) or a di-quark pair (ud)

10 Ratio of fragmentation fractions f s / (f u +f d ) A.Ukleja Studies of open heavy flavour production at LHCb16/06/201110 semileptonic modes n corr – efficiency, branching fractions and cross-feed corrected yields Cross-feed between channels is taken into account (C.Weiser, DELPHI 99-162 TALK 6, 1999)

11 Semileptonic modes A.Ukleja Studies of open heavy flavour production at LHCb16/06/201111

12 Ratio of fragmentation fractions f s / (f u +f d ) A.Ukleja Studies of open heavy flavour production at LHCb16/06/201112 semileptonic modes LEP: 0.128 ± 0.012 CDF: 0.135 ± 0.016 No evidence for dependence on  or p T (charm+  ) Good agreement with LEP and Tevatron values p T (charm+  ) [GeV] LHCb: 3 pb -1 f s / (f u +f d )  [2,3]  [3,5] Branching fractions of charm hadrons ±5.5 % Subtraction of B s →D 0 KX  background +4.1 %  1.1 % Dominant systematics:

13 Ratio of fragmentation fractions f  b / (f u +f d ) A.Ukleja Studies of open heavy flavour production at LHCb16/06/201113 p T (charm+  ) [GeV] LHCb: 3 pb -1 f  b / (f u +f d )  [2,3]  [3,5] Systematic error dominates 26% uncertainty on BR(  c →p  ) Slope with p T not consistent with zero Parameterising with straight line gives (for p T < 14 GeV): semileptonic modes

14 Ratio of fragmentation fractions f s / f d A.Ukleja Studies of open heavy flavour production at LHCb16/06/201114 hadronic modes The ratio: B 0 s →D  s  + / B 0 d →D  K +  only tree diagrams are involved  theoretically well understood, branching ratios calculable  suffers from reconstructed yield of B 0 d →D  K + ε X – total detector efficiency N X – observed number of decays N a =1.00±0.02 – non factorizable U-spin breaking effects N F =1.24±0.08 – ratio of form factors KK DD B0dB0d B0sB0s DsDs ++ World average for B 0 s -to-B 0 d lifetime ratio: (R.Fleisher, N.Serra, N.Tuning, Phys.Rev.D83:014017,2011)

15 Ratio of fragmentation fractions f s / f d A.Ukleja Studies of open heavy flavour production at LHCb16/06/201115 hadronic modes The ratio: B 0 s →D  s  + / B 0 d →D   +  suffers from theoretical uncertainties due to contribution from W exchange diagram  DD B0dB0d B0sB0s DsDs ++ ε X – total detector efficiency N X – observed number of decays N a =1.00±0.02 – non factorizable U-spin breaking effects N F =1.24±0.08 – ratio of form factors N E =0.966±0.075 – additional correction term for the W exchange in B 0 d →D   + decay W

16 Ratio of fragmentation fractions f s / f d A.Ukleja Studies of open heavy flavour production at LHCb16/06/201116 hadronic modes Modes topologically identical and using identical selection criteria to minimizing efficiency differences between modes From B 0 s →D  s  + and B 0 d →D  K + : f s / f d = 0.242 ± 0.024 stat ± 0.018 syst ± 0.016 theor From B 0 s →D  s  + and B 0 d →D   + : f s / f d = 0.249 ± 0.013 stat ± 0.020 syst ± 0.025 theor Combined: f s / f d = 0.245 ± 0.017 stat ± 0.018 syst ± 0.018 theor Theoretical uncertainty dominated by uncertainty on form factor ratio Agrees well with semileptonic result and LEP and Tevatron Extra result: extract world best BR(B 0 d →D  K + )=(2.02 ± 0.17 ± 0.12) × 10 -4 LHCb 35 pb -1 (LHCb-CONF-2011-013)

17 Summary A.Ukleja Studies of open heavy flavour production at LHCb16/06/201117 LHCb has measured the b or anti-b hadrons cross-section in √s=7 TeV pp collisions (total):  in agreement with (and more precise than) QCD predictions  measured open charm cross-section (≈20 times higher) LHCb has measured the ratios of fragmentation fractions  f s / f d in good agreement with LEP and Tevatron  f  b / (f u +f d ) partially for different p T (p T <14GeV) than Tevatron ( 〈 p T 〉 ≈14GeV), in common region of p T good agreement

18 A.Ukleja Studies of open heavy flavour production at LHCb16/06/201118 Backup

19 D 0 cross section – example A.Ukleja Studies of open heavy flavour production at LHCb16/06/201119 Also measured for: D +, D* +, D + s The shape and absolute normalization are in good agreement with theoretical predictions 20 times higher than  (b anti-b) Combining all (p T <8 GeV, 2<y<4.5): Full p T and y using Pythia extrapolation: LHCb: 2 nb -1 (LHCb-CONF-2010-013)

20 A.Ukleja Studies of open heavy flavour production at LHCb16/06/201120 (C.Weiser, DELPHI 99-162 TALK 6, 1999)

21 A.Ukleja Studies of open heavy flavour production at LHCb16/06/201121

22 A.Ukleja Studies of open heavy flavour production at LHCb16/06/201122

23 A.Ukleja Studies of open heavy flavour production at LHCb16/06/201123

24 A.Ukleja Studies of open heavy flavour production at LHCb16/06/201124

Download ppt "Studies of open heavy flavour production at LHCb Artur Ukleja (The Andrzej Sołtan Institute for Nuclear Studies, Warsaw) on behalf of the LHCb Collaboration."

Similar presentations

Excited Charm and K0sK0s Resonance Production at ZEUS V. Aushev For the ZEUS Collaboration XXXIX International Symposium on Multiparticle Dynamics ''Gold.

Excited Charm and K0sK0s Resonance Production at ZEUS V. Aushev For the ZEUS Collaboration XXXIX International Symposium on Multiparticle Dynamics ''Gold.
Tau dilepton channel The data sample used in this analysis comprises high-p T inclusive lepton events that contain an electron with E T >20 GeV or a muon.

Tau dilepton channel The data sample used in this analysis comprises high-p T inclusive lepton events that contain an electron with E T >20 GeV or a muon.
Open Charm and Charmonium Production: First Results from LHCb Zhenwei Univ. on behalf of the LHCb collaboration 21-24, October, 2010 IHEP,

Open Charm and Charmonium Production: First Results from LHCb Zhenwei Univ. on behalf of the LHCb collaboration 21-24, October, 2010 IHEP,
Measuring the bb cross- section using B  D o X   decays Liming Zhang & Sheldon Stone Syracuse University.

Measuring the bb cross- section using B  D o X   decays Liming Zhang & Sheldon Stone Syracuse University.
Study of B  D S ( * )  D*  *   and D ( * ) (4  )   at CLEO Jianchun Wang Syracuse University Representing The CLEO Collaboration DPF 2000 Aug 9.

Study of B  D S ( * )  D*  *   and D ( * ) (4  )   at CLEO Jianchun Wang Syracuse University Representing The CLEO Collaboration DPF 2000 Aug 9.
Ali Hanks - APS 2008 1 Direct measurement of fragmentation photons in p+p collisions at √s = 200GeV with the PHENIX experiment Ali Hanks for the PHENIX.

Ali Hanks - APS Direct measurement of fragmentation photons in p+p collisions at √s = 200GeV with the PHENIX experiment Ali Hanks for the PHENIX.
Recent Electroweak Results from the Tevatron Weak Interactions and Neutrinos Workshop Delphi, Greece, 6-11 June, 2005 Dhiman Chakraborty Northern Illinois.

Recent Electroweak Results from the Tevatron Weak Interactions and Neutrinos Workshop Delphi, Greece, 6-11 June, 2005 Dhiman Chakraborty Northern Illinois.
DPF-2006 1 Victor Pavlunin on behalf of the CLEO Collaboration DPF-2006 Results from four CLEO Y (5S) analyses:  Exclusive B s and B Reconstruction at.

DPF Victor Pavlunin on behalf of the CLEO Collaboration DPF-2006 Results from four CLEO Y (5S) analyses:  Exclusive B s and B Reconstruction at.
Heavy Flavor Production at the Tevatron Jennifer Pursley The Johns Hopkins University on behalf of the CDF and D0 Collaborations Beauty 2006 - University.

Heavy Flavor Production at the Tevatron Jennifer Pursley The Johns Hopkins University on behalf of the CDF and D0 Collaborations Beauty University.
I. Shipsey Heavy Quark Physics ICHEP06 7/27/06 1 The Y(5S) at CLEO Introduction Bs Reconstruction at the Y(5S) CLEO PRL 96, 022002 (2006) B Reconstruction.

I. Shipsey Heavy Quark Physics ICHEP06 7/27/06 1 The Y(5S) at CLEO Introduction Bs Reconstruction at the Y(5S) CLEO PRL 96, (2006) B Reconstruction.
Measurement of R at CLEO - Jim Libby1 Measurement of R at CLEO Jim Libby University of Oxford.

Measurement of R at CLEO - Jim Libby1 Measurement of R at CLEO Jim Libby University of Oxford.
First Observation of B°  D*°         Decays Sheldon Stone Jianchun Wang Syracuse University CLEO Plenary 05/11/01.

First Observation of B°  D*°         Decays Sheldon Stone Jianchun Wang Syracuse University CLEO Plenary 05/11/01.
Hadronic Moments in Semileptonic B Decays Ramon Miquel Lawrence Berkeley National Laboratory (for the CDF II Collaboration)

Hadronic Moments in Semileptonic B Decays Ramon Miquel Lawrence Berkeley National Laboratory (for the CDF II Collaboration)
B Production and Decay at DØ Brad Abbott University of Oklahoma BEACH 2004 June 28-July 3.

B Production and Decay at DØ Brad Abbott University of Oklahoma BEACH 2004 June 28-July 3.
Measurement of B (D + →μ + ν μ ) and the Pseudoscalar Decay Constant f D at CLEO István Dankó Rensselaer Polytechnic Institute representing the CLEO Collaboration.

Measurement of B (D + →μ + ν μ ) and the Pseudoscalar Decay Constant f D at CLEO István Dankó Rensselaer Polytechnic Institute representing the CLEO Collaboration.
Donatella Lucchesi1 B Physics Review: Part II Donatella Lucchesi INFN and University of Padova RTN Workshop The 3 rd generation as a probe for new physics.

Donatella Lucchesi1 B Physics Review: Part II Donatella Lucchesi INFN and University of Padova RTN Workshop The 3 rd generation as a probe for new physics.
B S Mixing at Tevatron Donatella Lucchesi University and INFN of Padova On behalf of the CDF&D0 Collaborations First Workshop on Theory, Phenomenology.

B S Mixing at Tevatron Donatella Lucchesi University and INFN of Padova On behalf of the CDF&D0 Collaborations First Workshop on Theory, Phenomenology.
Jake Anderson, on behalf of CMS Fermilab Semi-leptonic VW production at CMS.

Jake Anderson, on behalf of CMS Fermilab Semi-leptonic VW production at CMS.
03/09/2008 Md. Naimuddin 1 Masses, Lifetimes and Mixings of B and D hadrons Md. Naimuddin (on behalf of CDF and D0 collaboration) Fermi National Accl.

03/09/2008 Md. Naimuddin 1 Masses, Lifetimes and Mixings of B and D hadrons Md. Naimuddin (on behalf of CDF and D0 collaboration) Fermi National Accl.
Heavy charged gauge boson, W’, search at Hadron Colliders YuChul Yang (Kyungpook National University) (PPP9, NCU, Taiwan, June 04, 2011) June04, 2011,

Heavy charged gauge boson, W’, search at Hadron Colliders YuChul Yang (Kyungpook National University) (PPP9, NCU, Taiwan, June 04, 2011) June04, 2011,

Similar presentations

Ads by Google