Download presentation
Presentation is loading. Please wait.
1
Title Gabriella Sciolla Massachusetts Institute of Technology Representing the BaBar Collaboration Beauty 2005 - Assisi, June 20-24, 2005 Searching for New Physics at the B factories: Measurements of sin2 at BaBar
2
2 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar BaBar and PEP-II BaBar detector 4 collider detector PEP-II asymmetric B factory 9.0 GeV e - beam 3.1 GeV e + beam Peak luminosity 9.1 x 10 33 cm -2 s -1 Integrated luminosity Delivered: >268 fb -1 e+e+ e+e+ Most results in this talk are based on 227 M BB events
3
3 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The Beauty of the Unitarity Triangle Two ways of looking for New Physics: Compare measurement of sides and angles Measure angles in channels with different sensitivity to New Physics
4
4 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The three roads to Charmonium modes: J/ ψ K S, ψ(2S) K S, χ c1 K S, η c K S J/ψ K L J/ψ K* 0 (K* 0 → K S π 0 ) Open-charm modes: D* + D* −, D* + D −, D + D − Penguin-dominated modes: φ K 0, K + K − K S, K S K S K S η′ K S K S π 0, ω K S, f 0 (980) K S
5
5 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar CP violation in interference between mixing and decays mixing decay (f)(f) When only one diagram contributes to the final state: Example: B 0 J/ K S :
6
6 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Exclusive B reconstruction How to measure the CP asymmetry. e-e- Flavor tagging Q=(30.5 0.5)% (4S) B0B0 B0B0 e-e- ++ -- e+e+ ++ -- Precise t determination z~ c t
7
7 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The golden mode for sin2 : B 0 charmonium K 0 Theoretically clean Experimentally clean Relatively large BF (~10 -4 ) CP sample: m ES [GeV] Phys. Rev. Lett. 94, 161803 (2005) E [MeV]
8
8 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar CP=+1CP=-1 sin(2 ) = 0.722 ± 0.040 stat ± 0.023 syst Unbinned maximum likelihood fit to t distribution Phys. Rev. Lett. 94, 161803 (2005) The golden mode for sin2 : CP fit in B charmonium K 0
9
9 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar SM test in B 0 charmonium K 0 Compare sides and angles Both BaBar and Belle results used Ambiguity resolved measuring sign(cos2 ) in B 0 J/ K* cos(2 )=-0.68 excluded at 86.6%CL [PRD 71 (2005)032005] Excellent agreement with constraints from the sides Another SM triumph?. cos(2β)<0 cos(2β)>0 SM test #2: Compare in various channels Measurements of angles NOT included in fit
10
10 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The b ccd trees: B 0 open charm Tree measures sin2 from b ccd transitions Penguin expected to be small in SM (< few %) D*D*: as large as = 0.6 [Grossman and Worah, 1997] New Physics could have large effects u,c,t
11
11 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Vector-vector final state: CP-even and CP-odd admixture Transversity analysis measures f CP-even The open charm trees: Recent update: B 0 D* + D* - C CP+ = +0.06 ± 0.17 ± 0.03 -S CP+ = 0.75 ± 0.25 ± 0.03 New BaBar Preliminary In good agreement with SM f CP+ = (87.5 4.4 0.7)%
12
12 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The open charm trees: B 0 D ( * ) D hep-ex/0505092 -S 0.54 0.35 0.070.29 0.33 0.070.29 0.63 0.06 C 0.09 0.25 0.060.17 0.24 0.040.11 0.35 0.06 D *+ D - D *- D + D+D-D+D- Updated New
13
13 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The key to New Physics: The Penguin Modes Decays dominated by gluonic penguin diagrams The typical example: B 0 K S No tree level contributions In SM, top quark dominates the loop: C~0; S~sin2 Impact of New Physics could be significant New particles could participate in the loop new CPV phases Low branching fractions Measure A CP in as many b sqq penguins as possible! φ K 0, K + K − K S, η′ K S, K S π 0, K S K S K S, ω K S, f 0 (980) K S SM NP
14
14 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The golden penguin: B 0 K 0 Combined K S and K L fit: Phys. Rev. D 71, 091102(R) (2005)
15
15 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar For non resonant B 0 K + K - K S decays, CP = 2 f even - 1 f even measured from angular moment analysis of the K + K - system Related channel: B 0 K + K - K S Phys. Rev. D 71, 091102(R) (2005)
16
16 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar A new golden penguin: B 0 K S K S K S hep-ex/0502013 (accepted by PRL) Theoretically clean Penguin dominated CP=+1 eigenstate Experimentally challenging B decay vertex uses K S pseudo-particles and beam spot constraint
17
17 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The silver penguin: B 0 ’K S Relative large BF ~ 6 x 10 -5 Theoretically less clean than K S Tree diagram possible … but Cabibbo and color suppressed… | S| =|S K -S Penguin |~ 0.01 QCDFact 0.1 SU(3) Phys. Rev. Lett. 94, 191802 (2005) S η′K s = 0.30 ± 0.14 ± 0.02 C η′K s = −0.21 ± 0.10 ± 0.02
18
18 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The challenging penguins: B 0 0 K S, f 0 K S, K S B 0 0 K S : dominated by tree contribution are non negligible ( S ~ 0.1 – 0.2) Experimental challenge: B CP decay vertex reconstruction ( t ~1ps) B 0 f 0 K S : In SM dominated by B 0 K S : In SM dominated by But tree can be relatively large hep-ex/0503011 hep-ex/0408095 hep-ex/0503018 B00KSB00KS B0f0KSB0f0KS B0KSB0KS - f S 0.35 0.04 +0.95 0.10+0.50 0.02 C 0.06 0.18 0.03-0.24 0.31 0.15-0.56 0.03
19
19 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar “sin2 ” in penguins: BaBar only Although each measurement is compatible with J/ K S, a trend is visible ’K S has the most significant shift (~2.9 if theory uncertainties neglected) … but statistical errors are still large…
20
20 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Average of BaBar and Belle results Boxes are SM expected ranges for - f S f from Beneke, hep-ph/0505075 Shift still significant… S J/ - S penguins > 3 “sin2 ” in penguins: BaBar + Belle Statistical fluctuation or first signs of New Physics?
21
21 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Summary and Conclusion Precision measurements of sin2 in many different channels are a powerful probe for New Physics B 0 charmonium K 0 : our calibration point ( sin2 ~ 0.04) B 0 open charm: no smoking guns so far B 0 penguin modes: intriguing shifts observed New Physics or statistical fluctuations? Time and data will tell… Goals for BaBar luminosity Summer 2006: 500 fb -1 Summer 2008: 1 ab -1
22
22 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Backup slides ------------------------------------- -------------------------------
23
23 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Transversity analysis D* + D* - is not a CP eigenstate sum of L=0, 2 (CP even) and L=1 (CP odd) CP odd fraction R determined by transversity analysis
24
24 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar D*D analysis SM expectations D+D- D*D
25
25 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar cos and sin fits in penguin modes
26
26 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The challenging penguins: B 0 0 K S In SM these decays are dominated by tree contribution are non negligible S ~ 0.1 in model dependent QCD calculations S ~ 0.2 in SU(3) Experimentally challenging B CP decay vtx from K S and beam spot K S tracks with > 3 SVT: t ~1ps Unbinned max likelihood fit: N sig = 300 ± 23 hep-ex/0503011
27
27 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Two more penguins: B 0 f 0 K S and B 0 K S B 0 f 0 K S dominated by b sss hep-ex/0408095 hep-ex/0503018 B 0 ωK S : dominated by b → sdd Tree contamination can be relatively large
28
28 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar The Other Trees: Recent update: B D* + D* - Vector-vector final state: CP-even and CP-odd admixture Transversity analysis measures f odd f odd = (12.5 4.4 0.7)% C CP+ = +0.04 ± 0.14 ± 0.02 -S CP+ = 0.65 ± 0.26 +0.09 -0.07 ± 0.04 Results presented at Moriond 2005 Good agreement with SM BaBar Preliminary
29
29 G. Sciolla – M.I.T. Measurements of sin(2 ) at BaBar Penguins vs tree
Similar presentations
