Results for the summer 2003 conferences

EPS-HEP 2003, International Europhysics Conference on High Energy Physics, Aachen, Germany, July 17-23, 2003
XXI International Symposium on Lepton and Photons Interactions at High Energies, Fermilab, Batavia (IL), USA, August 11-16, 2003


The following material is available publicly:

The most recent (and still up-to-date) description of the combination procedures can be found in chapters 3-5 of cern-ep-2001-050 (although the numerical results in this preprint are as of summer 2000).


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Summary of b-hadron lifetimes, fractions and oscillation averages

The fractions below are for an unbiased sample of weakly decaying b-hadrons produced at high energy. These fractions are assumed to be the same in Z decays or in proton-antiproton collisions at sqrt(s)=1.8 TeV. They have been obtained by combining direct rate measurements from LEP and CDF with all available mixing measurements from ALEPH, CDF, DELPHI, L3, OPAL as well as from ARGUS, CLEO, BABAR and BELLE. The B+ and B0 mesons are assumed to be produced in equal amount, the Bc production is neglected and the sum of the fractions is constrained to unity.

b hadron species fraction at high energy correlation with f(Bs) correlation with f(b-baryon)
Bs f(Bs) = 0.095 +- 0.010
b baryons f(b-baryon) = 0.103 +- 0.016 +0.026
B0 or B+ f(Bd) = f(Bu) = 0.401 +- 0.010 -0.544 -0.853


The lifetimes below have been obtained by combining time-dependent measurements from ALEPH, BABAR, BELLE, CDF, DELPHI, L3, OPAL and SLD. Decay width differences in the B0 and Bs systems have been ignored. The mixtures refer to samples of weakly decaying b-hadrons produced at high energy.

b hadron species average lifetime average lifetime relative to B0 average lifetime
B0 1.534 +- 0.013 ps
B+ 1.653 +- 0.014 ps 1.081 +- 0.015
Bs 1.439 +- 0.053 ps 0.938 +- 0.035
Bc 0.46 +0.18 -0.16 ps
Lambda_b 1.233 +0.078 -0.076 ps
Xi_b-, Xi_b0 mixture 1.39 +0.34 -0.28 ps
b-baryon mixture 1.210 +- 0.051 ps 0.789 +- 0.034
b-hadron mixture 1.573 +- 0.008 ps


Combined result on B0 mixing, obtained separately from time-dependent measurements of the oscillation frequency dmd (at high energy colliders and asymmetric B factories) and from time-integrated measurements of the mixing probability chid at symmetric Upsilon(4S) machines:

dmd = 0.502 +- 0.007 ps-1 from time-dependent measurements at ALEPH, BABAR, BELLE, CDF, DELPHI, L3, OPAL
chid = 0.182 +- 0.015 from time-integrated measurements at ARGUS and CLEO


Assuming no CP violation in the mixing and no width difference in the B0 system, and assuming a B0 lifetime of 1.534 +- 0.013 ps (the experimental average listed above), all above measurements can be combined to yield the following world averages:

dmd = 0.502 +- 0.006 ps-1 from all ALEPH, BABAR, BELLE, CDF, DELPHI, L3, OPAL, ARGUS and CLEO measurements
chid = 0.186 +- 0.004 from all ALEPH, BABAR, BELLE, CDF, DELPHI, L3, OPAL, ARGUS and CLEO measurements


Combined results on Bs oscillations:

dms > 14.4 ps-1 at 95% CL from all ALEPH, CDF, DELPHI, OPAL and SLD studies with a combined 95% CL sensitivity of 18.7 ps-1


Assuming a Bs lifetime of 1.439 +- 0.053 ps (the experimental average listed above), the above limit corresponds to xs > at 95% CL. Assuming no CP violation in the mixing and no width difference in the Bs system, this also corresponds to chis > at 95% CL.

Combined results on the relative decay width differences DGd/Gd and DGs/Gs in the B0 and Bs systems respectively, obtained from time-dependent measurements:

DGd/Gd not available yet from DELPHI and BABAR measurements
DGs/Gs = 0.16 +0.15 -0.16
DGs/Gs < 0.54 at 95% CL
from ALEPH, CDF, DELPHI, L3 and OPAL measurements
DGs/Gs = 0.07 +0.09 -0.07
DGs/Gs < 0.29 at 95% CL
same as above but constraining the mean Bs decay width to be equal to 1/tau(B0) where tau(B0) = 1.534 +- 0.013 ps
In the above, Gs and DGs are defined as Gs = (Gamma_short + Gamma_long)/2, DGs = Gamma_short - Gamma_long > 0, and the CP-even eigenstate is assumed to have the largest decay width (Gamma_short), i.e. the smallest lifetime.


Note on the combination procedures

Many B oscillations results depend on the knowledge of certain physics inputs like the lifetimes and production fractions of the various b hadron species. Various analyses have assumed different values for these physics inputs. The combined results quoted on this page have been obtained assuming a common set of physics inputs. To do this, each individual measurement has been adjusted to the common set of physics inputs before averaging. These adjustments have been performed if (and only if) a systematic uncertainty associated to a given physics parameters has been quoted by the experiment. The adjustment procedure affects both the central value of the measurement (by an amount proportionnal to the quoted systematic uncertainty) and the relevant systematic uncertainty. The common set of physics inputs consists mainly of the b hadron fractions and lifetimes given above.

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Plot of dmd measurements and their averages

All individual measurements are listed as quoted by the experiments; they might assume different physics inputs. The averages (which take into account all known correlations) are quoted after adjusting all the individual measurements to the common set of physics inputs. The chid average from ARGUS and CLEO is converted to a dmd measurement assuming no CP violation, no width difference in the B0 system and a B0 lifetime of 1.534 +- 0.013 ps.


colour ps / colour eps / black-and-white ps / black-and-white eps /

Same without average including time-integrated (chid) measurements:
colour ps / colour eps / black-and-white ps / black-and-white eps /

Only measurements and average at high energy colliders:
colour ps / colour eps / black-and-white ps / black-and-white eps /

Only measurements and average at LEP:
colour ps / colour eps / black-and-white ps / black-and-white eps /

Only measurements and average at asymmetric B factories:
colour ps / colour eps / black-and-white ps / black-and-white eps /


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Plot of dmd averages per experiment

All individual experiment averages are listed as quoted by the experiments (or computed by the working group without performing any adjustments); they might assume different physics inputs. The global averages are quoted after adjusting all the individual measurements to the common set of physics inputs. The chid average from ARGUS and CLEO is converted to a dmd measurement assuming no CP violation, no width difference in the B0 system and a B0 lifetime of 1.534 +- 0.013 ps.


colour ps / colour eps / black-and-white ps / black-and-white eps /


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Plot of combined Bs oscillation amplitude vs dms

The combined Bs amplitude is displayed as function of dms. All measurements have been adjusted to the common set of inputs before averaging. Systematic correlations are taken into account. An amplitude consistent with 1 is expected at the true value of dms. An amplitude consistent with 0 is expected far below the true value of dms. All values of dms for which the combined amplitude plus 1.645 times its total uncertainty is smaller than 1 (in this case all values of dms below 14.4 ps-1) are excluded at 95% CL. The combined sensitivity for 95% CL exclusion (equal to 18.7 ps-1 in this case) is defined as the value of dms at which the total uncertainty on the measured amplitude is equal to 1/1.645.


colour ps / colour eps / colour ps (up to 20 ps-1 only) / colour eps (up to 20 ps-1 only) / ASCII file with numerical data /

Same, but using only LEP data:
colour ps / colour eps / colour ps (up to 20 ps-1 only) / colour eps (up to 20 ps-1 only) / ASCII file with numerical data /


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Plot of Bs oscillation amplitude measurements and their average

All individual measurements of the Bs oscillation amplitude at a fixed value of dms are listed as quoted by the experiments (or obtained by a linear interpolation between other dms values at which the experiment did the measurements); they might assume different physics inputs. The sensitivity quoted for each experiment is obtained from the positive amplitude uncertainty, without performing adjustments. The average and combined sensitivity are obtained after adjusting all the individual measurements to the common set of physics inputs. The sensitivites are defined as the value of dms at which the positive uncertainty on the measured amplitude is equal to 1/1.645; they correspond to sensitivites for 95% CL exclusion limits.


colour ps / colour eps / black-and-white ps / black-and-white eps /

Same, but at dms=10 ps-1:
colour ps / colour eps / black-and-white ps / black-and-white eps /

Same, but at dms=19 ps-1:
colour ps / colour eps / black-and-white ps / black-and-white eps /


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Plot of CL contours in the plane DGs/Gs - 1/Gs

This shows the 68%, 95% and 99% CL 2D-contours of the negative log-likelihood in the plane DGs/Gs - 1/Gs, where DGs is the decay width difference and Gs is the mean decay width in the Bs system. Here DGs is defined as DGs = Gamma_short - Gamma_long > 0, and the CP-even eigenstate is assumed to have the largest decay width (Gamma_short), i.e. the smallest lifetime.


2D eps /

Probability density distribution for DGs/Gs:
1D colour eps / 1D black-and-white eps /

Same as above but constraining the mean Bs decay width to be equal to 1/tau(B0) where tau(B0) = 1.534 +- 0.013 ps:
2D eps / 1D colour eps / 1D black-and-white eps /



Author: OS 06-Jul-2003
Latest mod. 15-Jul-2003