X IN L IU ( 劉新 ) Collaborated with Wei Wang and Yuehong Xie Department of Physics, Jiangsu Normal University 17 th Sep.,

Slides:

Advertisements

Similar presentations

: Chris Parkes Part V CP violation and D Physics.

Advertisements

: Chris Parkes Part V CP violation and D Physics.

FSI Phases using CP Asymmetries from B Meson Decay Based on the work arXiv:1402:2978 Jihn E. Kim, Doh Young Mo, Soonkeon Nam Busan Particle Physics Workshop.

C.D. LuSino-German1 Hadronic B Decays in Perturbative QCD Approach Formalism of perturbative QCD (PQCD) based on k T factorization Direct CP asymmetry.

Direct CP Asymmetries in hadronic D decays Cai-Dian Lü ( 吕才典 ) IHEP, Beijing Based on work collaborated with Hsiang-nan Li, Fu-Sheng Yu, arXiv: ,

Hadronic B decays involving tensor mesons Hai-Yang Cheng ( 鄭海揚 ) Academia Sinica Properties of tensor mesons QCD factorization Comparison with experiment.

Measurements of the angle  : ,  (BaBar & Belle results) Georges Vasseur WIN`05, Delphi June 8, 2005.

Measurements of the angles of the Unitarity Triangle at B A B AR Measurements of the angles of the Unitarity Triangle at B A B AR PHENO06 Madison,15-18.

Rumin Wang G. R.. Lu& Y. D. Yang Work done in collaboration with G. R.. Lu & Y. D. Yang Huazhong Normal University Henan Normal University November 15,

1.  Motivation  Theoretical framework  Perturbative QCD Approach  Numerical Results  Summary 2.

CERN, October 2008PDG Collaboration Meeting1 The CKM Quark-Mixing Matrix Revised February 2008 A. Ceccucci (CERN), Z. Ligeti (LBNL) and Y. Sakai (KEK)

6/2/2015Attila Mihalyi - Wisconsin1 Recent results on the CKM angle  from BaBar DAFNE 2004, Frascati, Italy Attila Mihalyi University of Wisconsin-Madison.

Charm results overview1 Charm...the issues Lifetime Rare decays Mixing Semileptonic sector Hadronic decays (Dalitz plot) Leptonic decays Multi-body channels.

C.D. LuICFP31 Some progress in PQCD approach Cai-Dian Lü (IHEP, Beijing) Formalism of Perturbative QCD (PQCD) Direct CP asymmetry Polarization in B 

Title Gabriella Sciolla Massachusetts Institute of Technology Representing the BaBar Collaboration Beauty Assisi, June 20-24, 2005 Searching for.

1 Resolving B-CP puzzles in QCD factorization - An overview of charmless hadronic B decays - Hai-Yang Cheng Academia Sinica Based on 3 papers with Chun-Khiang.

1 B s  J/  update Lifetime Difference & Mixing phase Avdhesh Chandra for the CDF and DØ collaborations Beauty 2006 University of Oxford, UK.

Polarization fraction & time-dependent CP analysis of measured at Belle. March 2008 – Geneva Swiss Physical Society – Annual meeting Kim Vervink.

Bsbs Why is it important? –“Penguin” loop diagram –SM: dominated by t quark, probes V ts –Non-SM: via loop amplitude; interference on SM and non-SM.

1 B Physics at CDF Junji Naganoma University of Tsukuba “New Developments of Flavor Physics“ Workshop Tennomaru, Aichi, Japan.

Measurements of  and future projections Fabrizio Bianchi University of Torino and INFN-Torino Beauty 2006 The XI International Conference on B-Physics.

B s and Λ b Lifetimes and BRs at the Tevatron Satyajit Behari (For the CDF Collab.) Johns Hopkins Univ., Baltimore,USA 25 th September 2006 Beauty 2006,

C.Q. Geng ( 耿朝強） National Tsing Hua University ( The 3rd Int. Conf. on Flavor Physics, NCU, Oct. 3-8, 2005) T Violation in Baryonic B Decays Outline 1.

1. 2 July 2004 Liliana Teodorescu 2 Introduction  Introduction  Analysis method  B u and B d decays to mesonic final states (results and discussions)

P Spring 2003 L14Richard Kass B mesons and CP violation CP violation has recently ( ) been observed in the decay of mesons containing a b-quark.

Measurement of CP violation with the LHCb experiment at CERN

A window for New Physics in B s →KK decays Joaquim Matias Universitat Autònoma de Barcelona David London & JM, PRD (2004) David London &JM & Javier Virto,

ICFP05, NCU1 B → Kπ decays and new physics in the EW-penguin sector Yu, Chaehyun ( Yonsei University) October 6, 2005 In Collaboration with C.S. Kim, S.

Run-Hui Li Yonsei University Mainly based on R.H. Li, C.D. Lu, and W. Wang, PRD83:

Introduction to Flavor Physics in and beyond the Standard Model

Test Z’ Model in Annihilation Type Radiative B Decays Ying Li Yonsei University, Korea Yantai University, China Based on J. Hua, C.S Kim, Y. Li, arxiv:

CP violation measurements with the ATLAS detector E. Kneringer – University of Innsbruck on behalf of the ATLAS collaboration BEACH2012, Wichita, USA “Determination.

1 Multi-body B-decays studies in BaBar Ben Lau (Princeton University) On behalf of the B A B AR collaboration The XLIrst Rencontres de Moriond QCD and.

CKM Fit and Model independent constraints on physics Beyond the Standard Model Achille Stocchi (LAL-Universite Paris-Sud/Orsay) On behalf of the UTFit.

Pavel Krokovny Heidelberg University on behalf of LHCb collaboration Introduction LHCb experiment Physics results  S measurements  prospects Conclusion.

Radiative penguins at hadron machines Kevin Stenson University of Colorado.

1 A New Physics Study in B  K  & B  K*  Decays National Tsing Hua University, October 23, 2008 Sechul OH ( 吳世哲 ) ( 오세철 ) C.S. Kim, S.O., Y.W. Yoon,

Prospects for B  hh at LHCb Eduardo Rodrigues On behalf of the LHCb Collaboration CKM2008 Workshop, Rome, 9-13 September 2008 LHCb.

Theories of exclusive B meson decays Hsiang-nan Li Academia Sinica (Taiwan) Presented at Beijing Aug , 2005.

Tariq Aziz Tata Institute, Mumbai, India ( BELLE Collaboration ) Tariq Aziz Tata Institute, Mumbai, India ( BELLE Collaboration ) Recontre de Moriond/QCD,

Theoretical tools for non-leptonic B decays

The CKM matrix & its parametrizations

BNM Tsukuba (KEK) Sep Antonio Limosani KEK Slide 1 Antonio Limosani JSPS Fellow (KEK-IPNS JAPAN) BMN

Measurement of  2 /  using B   Decays at Belle and BaBar Alexander Somov CKM 06, Nagoya 2006 Introduction (CP violation in B 0   +   decays) Measurements.

Max BaakCKM Workshop 2006, Nagoya 1 1.Introduction 2.SU(3) breaking effects  Soft rescattering effects  W-exchange contributions  Non-factorizable contributions.

Anomalous Right-handed Top Quark Couplings Kang Young Lee (Konkuk Univ.) Tevatron B physics KISTI

1 New CP phase of mixing on T violation in Chuan-Hung Chen Department of Physics, National Cheng-Kung U., Tainan, Taiwan Inspired & motivated by CDF &

End User's View of Lattice QCD Cheng-Wei Chiang National Central University & Academia Sinica Lattice QCD Journal Club March 9, NTU.

Final state interactions in heavy mesons decays. A.B.Kaidalov and M.I. Vysotsky ITEP, Moscow.

B s Mixing Parameters and the Search for CP Violation at CDF/D0 H. Eugene Fisk Fermilab 14th Lomonosov Conference Moscow State University August ,

Michael Milnik (University of Karlsruhe) for the CDF Collaboration Search for Rare b-Hadron Decays at CDF II HEP 2007, Manchester.

P Spring 2002 L16Richard Kass B mesons and CP violation CP violation has recently ( ) been observed in the decay of mesons containing a b-quark.

Some Topics in B Physics Y ing L i Y onsei U niversity, K orea Y antai U nviersity, C hina.

2010/09/01cpv from b factories to tevatron and lhcb1 Recent B Physics Results from CDF Tomonobu Tomura (University of Tsukuba)

C.D. LuCKM1  /  3 from Charmless B s Decays Cai-Dian Lü (IHEP, Beijing) Thanks A.Ali, G.Kramer and Li, Wang... Testing Uncertainty of.

C.D. LuMoriond1 Charmless hadronic B s Decays Cai-Dian Lü (IHEP, Beijing) Thanks Ali, Kramer and Li, Shen,Wang The study of hep-ph/

Branching Fractions and Direct CP

Improved measurements of B → hh decays at Belle

seminar at Academia Sinica

CP violation and D Physics

David B. MacFarlane SLAC EPAC Meeting January 25, 2006

Polarization in charmless B VV decays

Selected topics in B physics

CKM Status In this lecture, we study the results summarized in this plot. November 17, 2018 Sridhara Dasu, CKM Status.

Reconsideration of the

CP violation in Bs→ff and Bs → K*0K*0

Bs → PV decays and effects of next-to-leading order contributions in the perturbative QCD factorization approach Da-cheng Yan Ping Yang, Xin Liu, Zhen-Jun.

Factorization in some exclusive B meson decays

清华大学高能物理研究中心 Center for High Energy Physics, Tsinghua University

Run-Hui Li Yonsei University

Presentation transcript:

X IN L IU ( 劉新 ) Collaborated with Wei Wang and Yuehong Xie Department of Physics, Jiangsu Normal University 17 th Sep., decays and penguin pollution on the extraction of mixing phase

2 Outline  Motivation  Summary  Numerical results and discussions  decays in pQCD approach

3 1. Motivation In SM, the source of CP violation arises from the non-vanishing complex phase in CKM matrix which governs the quark mixing. Wolfenstein parameterization

4 Phys. Rev. D 87, (2013) Phys. Rev. D 84, (2011) In SM, the non-vanishing phase in (bs) triangle is related to the Bs-\bar Bs mixing phase. For for example,

5 Theoretically, though intuitively penguin contribution is expected to be small in the SM, a complete and reliable estimate of its effects by some QCD-inspired approach is not yet available. Phys. Rev. D 71, (2005), Chen and Li J. High Energy Phys. 0703, 009 (2007) ， Li and Mishima Phys. Rev. D 86, (2012) ， Liu, Li, and Xiao Chin. Phys. C 34, 937 (2010), Liu, Zhang, and Xiao The pQCD approach has been adopted to investigate some modes and estimate the penguin contribution to in

6 Typical Feynman diagrams contributing to the considered decays at leading order in the pQCD approach 2. decays in pQCD approach

7 Typical Feynman diagrams contributing to the considered decays known at next-to-leading order level: Vertex corrections Phys. Rev. D 65, (2002), Cheng, Keum, and Yang

8 The decay amplitude for B \to J/psi V mode is given as Phys. Rev. D 65, (2002), Cheng, Keum, and Yang

9 Input quantities Phys. Rev. D 86, (2012), J. Beringer et al. [PDG] masses and B meson lifetimes CKM matrix elements -Wolfenstein parameterization with updated parameters

10 3. Numerical results and discussions theoretical predictions A. CP-averaged branching ratios  for transitions

11 experimental measurements Phys. Rev. D 86, (2012), J. Beringer et al. [PDG] Phys. Rev. D 71, (2005), Chen and Li

12 theoretical predictions  for transitions

13 experimental measurements Phys. Rev. D 86, (2012), J. Beringer et al. [PDG] Phys. Rev. D 86, (2012), R. Aaij et al. [LHCb] Nucl.Phys. B 867, 547 (2013), R. Aaij et al. [LHCb]

14  Most of pQCD predictions up to NLO precision agree well with the existing experimental measurements within uncertainties  BR(b \to s transition) are generally much larger than BR(b \to d transition) — CKM hierarchy  Some interesting ratios: Nucl.Phys. B 867, 547 (2013), R. Aaij et al. [LHCb] Data from LHCb Collaboration

15 Data from LHCb Collaboration Data from CDF Collaboration Phys. Rev. D 86, (2012), R. Aaij et al. [LHCb] Phys. Rev. D 83, (2011), T. Aaltenon et al. [CDF]

16 Derived from the available data Phys. Rev. D 86, (2012), R. Aaij et al. [LHCb] Phys. Rev. D 86, (2012), J. Beringer et al. [PDG] Derived from the available data

17 B. CP-averaged polarization fractions  decay amplitudes in transversity basis  definitions of polarization fractions

18  for decays, Data from latest measurement Phys. Rev. D 88, (2013), R. Aaij et al. [LHCb]

19  for mode, Data from very recent measurement Phys. Rev. Lett. 108, (2012), R. Aaij et al. [LHCb]

20  for mode, Data from very recent measurement Phys. Rev. D 86, (2012), R. Aaij et al. [LHCb]

21  for decays,

22  for mode,

23 C. Direct CP-violating asymmetries  definitions:  direct CP violations:

24

25

26 D. Impact of penguin contamination  Based on the encouraging agreements between theoretical calculations and available data, the penguin impacts on the mixing phase in decay are investigated. Phys. Rev. D 79, (2009), Faller, Fleischer, and Mannel

27  With factorizable contributions and vertex corrections, the results are  The addition of hard-scattering diagrams gives  Without them, the results should be

28  the deviation of from the is found to be of in the standard model with the pQCD approach + the known NLO contributions, specifically, vertex corrections.  This finding can be stringently examined in LHCb and SuperB experiments and may provide an important reference for verifying the existing new physics from the data.  the quantity is extracted in three polarizations from our pQCD numerical evaluations,

29 4. Summary  Today, we are in the era with precision measurements in the heavy flavor sector. The successful CKM mechanism has continued to motivate more precise tests on flavor physics and CP violation.  We systematically studied the physical observables such as BRs, PFs, CPV etc. in the decays by employing the pQCD approach with inclusion of the known NLO corrections.  Based on the global agreement, we discussed the penguin contributions to in mode and found the results shifted by 10 -3, which can be examined by the future experiments.

30 Thank you very much!

31 BACKUP SLIDES

32

33

34

35

36

37