6,928 research outputs found
Future B Experiments from The BTeV/LHC-b Perspective
Many measurements are necessary in the program of studying mixing, CP
violation and rare decays of b and c quarks. These measurements require large
numbers of B^o, B_s, B^- and D^{*+} hadrons. Fortunately, copius production of
particles containing b and c quarks will occur at Tevatron and the LHC. The
crucial measurements are described here, as well as the design of the two
experiments, LHC-b and BTeV, that can exploit the 4-20 x 10^{11} b hadrons
produced every 10^7 seconds.Comment: Presented at the 3rd International Conference on B Physics and CP
Violation, Taipei, December 3-7, 1999 15 pages, 10 figure
Future of Heavy Flavour Physics: Experimental Perspective
I discuss what measurements need to be done to search for physics beyond the
Standard CKM model, rather than just what studies can be done in the near
future. It is also important to accurately measure the CKM matrix elements.
Current best estimates for two important elements are:
|V_{cb}|=0.0381 +/- 0.0021 and |V_{ub}/V_{cb}|=0.085 +/- 0.019. Finally,
future experiments are discussed.Comment: Presented at "Heavy Flavours 8," Southampton, UK, July 1999, 9 pages
7 figure
Experimental Status of Physics
A short summary is given of the current status of B physics. Reasons for
physics beyond the Standard Model are discussed. Constraints on New Physics are
given using measurements of B mixing, Bs mixing, and CP violation, along with
|Vub. Future goals, and upcoming new experiments are also mentioned.Comment: Invited talk at X Mexican Workshop on Particles and Fields, Morelia,
Michoacan, Mexico, Nov. 7-12, 2005; 16 pages and 12 figures; (added
references
Experimental Results in Heavy Flavor Physics
The interplay of experiment and theory is explored in the context of current
data on b and c decay. Measurements of |Vcb| and |Vub| are extracted from
existing data. Conservative estimates give |Vcb|=(42.4 +/- 1.2{exp} +/-
2.3{thy})x10^{-3} and |Vub|=(3.90 +/- 0.16{exp} +/- 0.53{thy})x10^{-3}. Using
these values along with data on Bd, Bs mixing and CP violation in the K_{Long}
system, the allowed region of the CKM parameters rho and eta is derived. Tests
of factorization in two-body hadronic B decays to one heavy and one light meson
are shown and compared with modern theories which are also used to see if there
is new physics in two-body B decays to light mesons. The two new narrow D_{sJ}
states, discovered by BaBar and CLEO, respectively, are interpreted in light of
the observation of these states in B decays by Belle.Comment: Plenary talk at International Europhysics Conference on High Energy
Physics EPS (July 17th-23rd 2003) in Aachen, Germany, 16 pages, 37 figures.
Fixed Table 5 caption on Oct. 18 and errors on Nov. 5, 200
Lifetimes of some -flavored hadrons
Recent measurements of lifetimes of some -flavored hadrons are presented
and interpreted in the context of theoretical models, especially the Heavy
Quark Expansion. Decay widths and decay width differences in the
system are discussed from studies of decays into the
final states , , , , and
. Lifetime measurements of the baryons ,
, , and are also shown.Comment: Presented at 2014 Flavor Physics and CP Violation (FPCP-2014)
Marselle, France, May 26-30, 2014;19 pages, 17 figures, to appear in the
proceeding
Pentaquarks and Tetraquarks at LHCb
Exotic resonant structures found in and decays
into charmonium in the LHCb experiment are discussed. Examination of the
system in decays shows two states each
of which must be composed of quarks, and thus are called
charmonium pentaquarks. Their masses are ~MeV and ~MeV, and their corresponding widths () are MeV, and MeV. The preferred assignments are of
opposite parity, with one state having spin 3/2 and the other 5/2. Models of
internal binding of the pentaquark states are discussed. Finally, another
mesonic state is discussed, the that decays into and
was first observed by the Belle collaboration in
decays. Using a sample of approximately 25,000 signal events, LHCb determines
the to be .Comment: 18 pages, 19 figures, presented at the European Physical Society
Conference, Vienna Austria, July 22-19, and the DPF 2015 Meeting of the
American Physical Society Division of Particles and Fields, Ann Arbor,
Michigan, August 4-8, 201
Heavy Flavor Physics
The main purpose of Heavy Flavor experiments is to discover physics beyond
the Standard Model, or characterize it, should it be found elsewhere. Thus,
current limits on New Physics (NP) are reviewed. New results are presented,
some involving processes that could show NP even with current data. Specific
topics include the CKM element |Vub|, the forward-backward asymmetry in B -> K*
mu+ mu-, b-hadron fractions at the LHC, B(Bs -> mu+ mu-), first observations of
several Bs and Bc decay modes, the X(4140), new b-baryons and their decays,
searches for Majorana neutrinos, and Lepton Flavor Violation.Comment: To appear in Proceedings of the DPF-2011 Conference, Providence, RI,
August 8-13, 2011, 16 pages, 26 figures; version 2 fixed some typographical
error
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