Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
B
I
(
J
P
) =
12
(0
,
)
Quantum numbers not measured. Values shown are quark-model
predictions.
See also the
B
/
B
0
ADMIXTURE and
B
/
B
0
/
B
0s
/
b
-baryon AD-
MIXTURE sections.
B
MASS
B
MASS
B
MASS
B
MASS
The t uses mB
+
, (mB
0
,
mB
+
), mB
0
s
, and (mB
0
s
{ (mB
+
+ mB
0
)/2)
to determine mB
+
, mB
0
, mB
0
s
, and the mass dierences.
V
ALUE
(MeV)
EVTS
DOCUMENT
ID
TECN
COMMENT
5278
:
9
1
:
8 OUR FIT
5278
:
9
1
:
8 OUR FIT
5278
:
9
1
:
8 OUR FIT
5278
:
9
1
:
8 OUR FIT
5278
:
9
1
:
5 OUR AVERAGE
5278
:
9
1
:
5 OUR AVERAGE
5278
:
9
1
:
5 OUR AVERAGE
5278
:
9
1
:
5 OUR AVERAGE
5279
:
1
1
:
7
1
:
4
147
1 ABE
96
B
CDF pp at 1.8 TeV
5278
:
8
0
:
54
2
:
0
362
2 ALAM
94 CLE2 e+e
,
!
(4S)
5278
:
3
0
:
4
2
:
0
2 BORTOLETTO92 CLEO e+e
,
!
(4S)
5280
:
5
1
:
0
2
:
0
2
;
3 ALBRECHT 90
J
ARG e+e
,
!
(4S)
5278
:
6
0
:
8
2
:
0
2 BEBEK
87 CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
5275
:
8
1
:
3
3
:
0
32
ALBRECHT 87
C
ARG e+e
,
!
(4S)
5278
:
2
1
:
8
3
:
0
12
4 ALBRECHT 87
D
ARG e+e
,
!
(4S)
1Excluded from t because it is not independent of ABE 96
B
B0s mass and B0s-B mass
dierence.
2These experiments all report a common systematic error 2
:
0 MeV. We have articially
increased the systematic error to allow the experiments to be treated as independent
measurements in our average. See \Treatment of Errors" section of the Introductory
Text. These experiments actually measure the dierence between half of Ecm and the
B mass.
3ALBRECHT 90
J
assumes 10580 for (4S) mass. Supersedes ALBRECHT 87
C
and
ALBRECHT 87
D
.
4Found using fully reconstructed decays with J
=
(1S). ALBRECHT 87
D
assume m(4S)
= 10577 MeV.
B
MEAN LIFE
B
MEAN LIFE
B
MEAN LIFE
B
MEAN LIFE
See B
/B0/B0s/b-baryon ADMIXTURE section for data on B-hadron
mean life averaged over species of bottom particles.
\OUR EVALUATION" is an average of the data listed below performed by the LEP
B Lifetimes Working Group as described in our review \Production and Decay of b-
avored Hadrons" in the B
Section of the Listings. The averaging procedure takes
into account correlations between the measurements and asymmetric lifetime errors.
V
ALUE
(10
,
12 s)
EVTS
DOCUMENT
ID
TECN
COMMENT
1
:
65
0
:
03 OUR EVALUATION
1
:
65
0
:
03 OUR EVALUATION
1
:
65
0
:
03 OUR EVALUATION
1
:
65
0
:
03 OUR EVALUATION
1
:
643
0
:
037
0
:
025
5 ABBIENDI 99
J
OPAL e+e
,
!
Z
1
:
68
0
:
07
0
:
02
6 ABE
98
B
CDF pp at 1
:
8 TeV
1
:
637
0
:
058+0
:
045
,
0
:
043
7 ABE
98
Q
CDF pp at 1
:
8 TeV
HTTP://PDG.LBL.GOV
Page 1
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
1
:
66
0
:
06
0
:
03
5 ACCIARRI
98
S
L3
e+e
,
!
Z
1
:
66
0
:
06
0
:
05
5 ABE
97
J
SLD e+e
,
!
Z
1
:
58
0
:
09
0
:
04
7 BUSKULIC 96
J
ALEP e+e
,
!
Z
1
:
58 +0
:
21
,
0
:
18 +0
:
04
,
0
:
03
94
6 BUSKULIC 96
J
ALEP e+e
,
!
Z
1
:
61
0
:
16
0
:
12
7
;
8 ABREU
95
Q
DLPH e+e
,
!
Z
1
:
72
0
:
08
0
:
06
9 ADAM
95 DLPH e+e
,
!
Z
1
:
52
0
:
14
0
:
09
7 AKERS
95
T
OPAL e+e
,
!
Z
We do not use the following data for averages, ts, limits, etc.
1
:
56
0
:
13
0
:
06
7 ABE
96
C
CDF Repl. by ABE 98
Q
1
:
58
0
:
09
0
:
03
10 BUSKULIC 96
J
ALEP e+e
,
!
Z
1
:
70
0
:
09
11 ADAM
95 DLPH e+e
,
!
Z
1
:
61
0
:
16
0
:
05
148
6 ABE
94
D
CDF Repl. by ABE 98
B
1
:
30 +0
:
33
,
0
:
29
0
:
16
92
7 ABREU
93
D
DLPH Sup. by ABREU 95
Q
1
:
56
0
:
19
0
:
13
134
9 ABREU
93
G
DLPH Sup. by ADAM 95
1
:
51 +0
:
30
,
0
:
28 +0
:
12
,
0
:
14
59
7 ACTON
93
C
OPAL Sup. by AKERS 95
T
1
:
47 +0
:
22
,
0
:
19 +0
:
15
,
0
:
14
77
7 BUSKULIC 93
D
ALEP Sup. by BUSKULIC 96
J
5Data analyzed using charge of secondary vertex.
6Measured mean life using fully reconstructed decays.
7Data analyzed using D/D
`
X event vertices.
8ABREU 95
Q
assumes B(B0
!
D
,
`
+
`
) = 3
:
2
1
:
7%.
9Data analyzed using vertex-charge technique to tag B charge.
10Combined result of D/D
`
X analysis and fully reconstructed B analysis.
11Combined ABREU 95
Q
and ADAM 95 result.
HTTP://PDG.LBL.GOV
Page 2
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
B
+
DECAY MODES
B
+
DECAY MODES
B
+
DECAY MODES
B
+
DECAY MODES
B
,
modes are charge conjugates of the modes below. Modes which do not
identify the charge state of the B are listed in the B
/B0 ADMIXTURE
section.
The branching fractions listed below assume 50% B0 B0 and 50% B+B
,
production at the (4S). We have attempted to bring older measurements
up to date by rescaling their assumed (4S) production ratio to 50:50
and their assumed D, Ds, D
, and
branching ratios to current values
whenever this would aect our averages and best limits signicantly.
Indentation is used to indicate a subchannel of a previous reaction. All
resonant subchannels have been corrected for resonance branching frac-
tions to the nal state so the sum of the subchannel branching fractions
can exceed that of the nal state.
Scale factor/
Mode
Fraction (,i/,)
Condence level
Semileptonic and leptonic modes
Semileptonic and leptonic modes
Semileptonic and leptonic modes
Semileptonic and leptonic modes
,
1
`
+
`
anything
[a] (10
:
3
0
:
9 ) %
,
2
D
0
`
+
`
[a] ( 1
:
86
0
:
33) %
,
3
D
(2007)
0
`
+
`
[a] ( 5
:
3
0
:
8 ) %
,
4
D
1
(2420)
0
`
+
`
( 5
:
6
1
:
6 )
10
,
3
,
5
D
2
(2460)
0
`
+
`
<
8
10
,
3
CL=90%
,
6
0
e
+
e
<
2
:
2
10
,
3
CL=90%
,
7
!
`
+
`
[a]
<
2
:
1
10
,
4
CL=90%
,
8
!
+
,
9
0
`
+
`
[a]
<
2
:
1
10
,
4
CL=90%
,
10
e
+
e
<
1
:
5
10
,
5
CL=90%
,
11
+
<
2
:
1
10
,
5
CL=90%
,
12
+
<
5
:
7
10
,
4
CL=90%
,
13
e
+
e
<
2
:
0
10
,
4
CL=90%
,
14
+
<
5
:
2
10
,
5
CL=90%
D
,
D
, or
D
s
modes
D
,
D
, or
D
s
modes
D
,
D
, or
D
s
modes
D
,
D
, or
D
s
modes
,
15
D
0
+
( 5
:
3
0
:
5 )
10
,
3
,
16
D
0
+
( 1
:
34
0
:
18) %
,
17
D
0
K
+
( 2
:
9
0
:
8 )
10
,
4
,
18
D
0
+
+
,
( 1
:
1
0
:
4 ) %
,
19
D
0
+
+
,
nonresonant
( 5
4 )
10
,
3
,
20
D
0
+
0
( 4
:
2
3
:
0 )
10
,
3
,
21
D
0
a
1
(1260)
+
( 5
4 )
10
,
3
,
22
D
(2010)
,
+
+
( 2
:
1
0
:
6 )
10
,
3
,
23
D
,
+
+
<
1
:
4
10
,
3
CL=90%
,
24
D
(2007)
0
+
( 4
:
6
0
:
4 )
10
,
3
,
25
D
(2010)
+
0
<
1
:
7
10
,
4
CL=90%
,
26
D
(2007)
0
+
( 1
:
55
0
:
31) %
HTTP://PDG.LBL.GOV
Page 3
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
27
D
(2007)
0
+
+
,
( 9
:
4
2
:
6 )
10
,
3
,
28
D
(2007)
0
a
1
(1260)
+
( 1
:
9
0
:
5 ) %
,
29
D
(2010)
,
+
+
0
( 1
:
5
0
:
7 ) %
,
30
D
(2010)
,
+
+
+
,
<
1
%
CL=90%
,
31
D
1
(2420)
0
+
( 1
:
5
0
:
6 )
10
,
3
S=1.3
,
32
D
1
(2420)
0
+
<
1
:
4
10
,
3
CL=90%
,
33
D
2
(2460)
0
+
<
1
:
3
10
,
3
CL=90%
,
34
D
2
(2460)
0
+
<
4
:
7
10
,
3
CL=90%
,
35
D
0
D
+
s
( 1
:
3
0
:
4 ) %
,
36
D
0
D
+
s
( 9
4 )
10
,
3
,
37
D
(2007)
0
D
+
s
( 1
:
2
0
:
5 ) %
,
38
D
(2007)
0
D
+
s
( 2
:
7
1
:
0 ) %
,
39
D
(2007)
0
D
(2010)
+
<
1
:
1
%
CL=90%
,
40
D
0
D
(2010)
+
+
D
(2007)
0
D
+
<
1
:
3
%
CL=90%
,
41
D
0
D
+
<
6
:
7
10
,
3
CL=90%
,
42
D
+
s
0
<
2
:
0
10
,
4
CL=90%
,
43
D
+
s
0
<
3
:
3
10
,
4
CL=90%
,
44
D
+
s
<
5
10
,
4
CL=90%
,
45
D
+
s
<
8
10
,
4
CL=90%
,
46
D
+
s
0
<
4
10
,
4
CL=90%
,
47
D
+
s
0
<
5
10
,
4
CL=90%
,
48
D
+
s
!
<
5
10
,
4
CL=90%
,
49
D
+
s
!
<
7
10
,
4
CL=90%
,
50
D
+
s
a
1
(1260)
0
<
2
:
2
10
,
3
CL=90%
,
51
D
+
s
a
1
(1260)
0
<
1
:
6
10
,
3
CL=90%
,
52
D
+
s
<
3
:
2
10
,
4
CL=90%
,
53
D
+
s
<
4
10
,
4
CL=90%
,
54
D
+
s
K
0
<
1
:
1
10
,
3
CL=90%
,
55
D
+
s
K
0
<
1
:
1
10
,
3
CL=90%
,
56
D
+
s
K
(892)
0
<
5
10
,
4
CL=90%
,
57
D
+
s
K
(892)
0
<
4
10
,
4
CL=90%
,
58
D
,
s
+
K
+
<
8
10
,
4
CL=90%
,
59
D
,
s
+
K
+
<
1
:
2
10
,
3
CL=90%
,
60
D
,
s
+
K
(892)
+
<
6
10
,
3
CL=90%
,
61
D
,
s
+
K
(892)
+
<
8
10
,
3
CL=90%
HTTP://PDG.LBL.GOV
Page 4
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
Charmonium modes
Charmonium modes
Charmonium modes
Charmonium modes
,
62
J
=
(1
S
)
K
+
(10
:
0
1
:
0 )
10
,
4
,
63
J
=
(1
S
)
K
+
+
,
( 1
:
4
0
:
6 )
10
,
3
,
64
J
=
(1
S
)
K
(892)
+
( 1
:
48
0
:
27)
10
,
3
,
65
J
=
(1
S
)
+
( 5
:
1
1
:
5 )
10
,
5
,
66
J
=
(1
S
)
+
<
7
:
7
10
,
4
CL=90%
,
67
J
=
(1
S
)
a
1
(1260)
+
<
1
:
2
10
,
3
CL=90%
,
68
(2
S
)
K
+
( 5
:
8
1
:
0 )
10
,
4
,
69
(2
S
)
K
(892)
+
<
3
:
0
10
,
3
CL=90%
,
70
(2
S
)
K
+
+
,
( 1
:
9
1
:
2 )
10
,
3
,
71
c1
(1
P
)
K
+
( 1
:
0
0
:
4 )
10
,
3
,
72
c1
(1
P
)
K
(892)
+
<
2
:
1
10
,
3
CL=90%
K
or
K
modes
K
or
K
modes
K
or
K
modes
K
or
K
modes
,
73
K
0
+
( 2
:
3
1
:
1 )
10
,
5
,
74
K
+
0
<
1
:
6
10
,
5
CL=90%
,
75
0
K
+
( 6
:
5
1
:
7 )
10
,
5
,
76
0
K
(892)
+
<
1
:
3
10
,
4
CL=90%
,
77
K
+
<
1
:
4
10
,
5
CL=90%
,
78
K
(892)
+
<
3
:
0
10
,
5
CL=90%
,
79
!
K
+
( 1
:
5 +0
:
7
,
0
:
6 )
10
,
5
,
80
!
K
(892)
+
<
8
:
7
10
,
5
CL=90%
,
81
K
(892)
0
+
<
4
:
1
10
,
5
CL=90%
,
82
K
(892)
+
0
<
9
:
9
10
,
5
CL=90%
,
83
K
+
,
+
nonresonant
<
2
:
8
10
,
5
CL=90%
,
84
K
,
+
+
nonresonant
<
5
:
6
10
,
5
CL=90%
,
85
K
1
(1400)
0
+
<
2
:
6
10
,
3
CL=90%
,
86
K
2
(1430)
0
+
<
6
:
8
10
,
4
CL=90%
,
87
K
+
0
<
1
:
9
10
,
5
CL=90%
,
88
K
0
+
<
4
:
8
10
,
5
CL=90%
,
89
K
(892)
+
+
,
<
1
:
1
10
,
3
CL=90%
,
90
K
(892)
+
0
<
9
:
0
10
,
4
CL=90%
,
91
K
1
(1400)
+
0
<
7
:
8
10
,
4
CL=90%
,
92
K
2
(1430)
+
0
<
1
:
5
10
,
3
CL=90%
,
93
K
+
K
0
<
2
:
1
10
,
5
CL=90%
,
94
K
+
K
,
+
nonresonant
<
7
:
5
10
,
5
CL=90%
,
95
K
+
K
,
K
+
<
2
:
0
10
,
4
CL=90%
,
96
K
+
<
5
10
,
6
CL=90%
,
97
K
+
K
,
K
+
nonresonant
<
3
:
8
10
,
5
CL=90%
,
98
K
(892)
+
K
+
K
,
<
1
:
6
10
,
3
CL=90%
,
99
K
(892)
+
<
4
:
1
10
,
5
CL=90%
HTTP://PDG.LBL.GOV
Page 5
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
100
K
1
(1400)
+
<
1
:
1
10
,
3
CL=90%
,
101
K
2
(1430)
+
<
3
:
4
10
,
3
CL=90%
,
102
K
+
f
0
(980)
<
8
10
,
5
CL=90%
,
103
K
(892)
+
( 5
:
7
3
:
3 )
10
,
5
,
104
K
1
(1270)
+
<
7
:
3
10
,
3
CL=90%
,
105
K
1
(1400)
+
<
2
:
2
10
,
3
CL=90%
,
106
K
2
(1430)
+
<
1
:
4
10
,
3
CL=90%
,
107
K
(1680)
+
<
1
:
9
10
,
3
CL=90%
,
108
K
3
(1780)
+
<
5
:
5
10
,
3
CL=90%
,
109
K
4
(2045)
+
<
9
:
9
10
,
3
CL=90%
Light unavored meson modes
Light unavored meson modes
Light unavored meson modes
Light unavored meson modes
,
110
+
0
<
2
:
0
10
,
5
CL=90%
,
111
+
+
,
<
1
:
3
10
,
4
CL=90%
,
112
0
+
<
4
:
3
10
,
5
CL=90%
,
113
+
f
0
(980)
<
1
:
4
10
,
4
CL=90%
,
114
+
f
2
(1270)
<
2
:
4
10
,
4
CL=90%
,
115
+
,
+
nonresonant
<
4
:
1
10
,
5
CL=90%
,
116
+
0
0
<
8
:
9
10
,
4
CL=90%
,
117
+
0
<
7
:
7
10
,
5
CL=90%
,
118
+
,
+
0
<
4
:
0
10
,
3
CL=90%
,
119
+
0
<
1
:
0
10
,
3
CL=90%
,
120
a
1
(1260)
+
0
<
1
:
7
10
,
3
CL=90%
,
121
a
1
(1260)
0
+
<
9
:
0
10
,
4
CL=90%
,
122
!
+
<
2
:
3
10
,
5
CL=90%
,
123
!
+
<
6
:
1
10
,
5
CL=90%
,
124
+
<
1
:
5
10
,
5
CL=90%
,
125
0
+
<
3
:
1
10
,
5
CL=90%
,
126
0
+
<
4
:
7
10
,
5
CL=90%
,
127
+
<
3
:
2
10
,
5
CL=90%
,
128
+
<
5
10
,
6
CL=90%
,
129
+
<
1
:
6
10
,
5
,
130
+
+
+
,
,
<
8
:
6
10
,
4
CL=90%
,
131
0
a
1
(1260)
+
<
6
:
2
10
,
4
CL=90%
,
132
0
a
2
(1320)
+
<
7
:
2
10
,
4
CL=90%
,
133
+
+
+
,
,
0
<
6
:
3
10
,
3
CL=90%
,
134
a
1
(1260)
+
a
1
(1260)
0
<
1
:
3
%
CL=90%
Charged particle (
h
) modes
Charged particle (
h
) modes
Charged particle (
h
) modes
Charged particle (
h
) modes
h
= K
or
,
135
h
+
0
( 1
:
6 +0
:
7
,
0
:
6 )
10
,
5
,
136
!
h
+
2
:
50
10
,
5
HTTP://PDG.LBL.GOV
Page 6
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
Baryon modes
Baryon modes
Baryon modes
Baryon modes
,
137
p
p
+
<
1
:
6
10
,
4
CL=90%
,
138
p
p
+
nonresonant
<
5
:
3
10
,
5
CL=90%
,
139
p
p
+
+
,
<
5
:
2
10
,
4
CL=90%
,
140
p
p
K
+
nonresonant
<
8
:
9
10
,
5
CL=90%
,
141
p
<
6
10
,
5
CL=90%
,
142
p
+
,
<
2
:
0
10
,
4
CL=90%
,
143
0
p
<
3
:
8
10
,
4
CL=90%
,
144
++
p
<
1
:
5
10
,
4
CL=90%
,
145
,
c
p
+
( 6
:
2
2
:
7 )
10
,
4
,
146
,
c
p
+
0
<
3
:
12
10
,
3
CL=90%
,
147
,
c
p
+
+
,
<
1
:
46
10
,
3
CL=90%
,
148
,
c
p
+
+
,
0
<
1
:
34
%
CL=90%
Lepton Family number (
LF
) or Lepton number (
L
) violating modes, or
Lepton Family number (
LF
) or Lepton number (
L
) violating modes, or
Lepton Family number (
LF
) or Lepton number (
L
) violating modes, or
Lepton Family number (
LF
) or Lepton number (
L
) violating modes, or
B
= 1 weak neutral current (
B1
) modes
B
= 1 weak neutral current (
B1
) modes
B
= 1 weak neutral current (
B1
) modes
B
= 1 weak neutral current (
B1
) modes
,
149
+
e
+
e
,
B1
<
3
:
9
10
,
3
CL=90%
,
150
+
+
,
B1
<
9
:
1
10
,
3
CL=90%
,
151
K
+
e
+
e
,
B1
<
6
10
,
5
CL=90%
,
152
K
+
+
,
B1
<
1
:
0
10
,
5
CL=90%
,
153
K
(892)
+
e
+
e
,
B1
<
6
:
9
10
,
4
CL=90%
,
154
K
(892)
+
+
,
B1
<
1
:
2
10
,
3
CL=90%
,
155
+
e
+
,
LF
<
6
:
4
10
,
3
CL=90%
,
156
+
e
,
+
LF
<
6
:
4
10
,
3
CL=90%
,
157
K
+
e
+
,
LF
<
6
:
4
10
,
3
CL=90%
,
158
K
+
e
,
+
LF
<
6
:
4
10
,
3
CL=90%
,
159
,
e
+
e
+
L
<
3
:
9
10
,
3
CL=90%
,
160
,
+
+
L
<
9
:
1
10
,
3
CL=90%
,
161
,
e
+
+
LF
<
6
:
4
10
,
3
CL=90%
,
162
K
,
e
+
e
+
L
<
3
:
9
10
,
3
CL=90%
,
163
K
,
+
+
L
<
9
:
1
10
,
3
CL=90%
,
164
K
,
e
+
+
LF
<
6
:
4
10
,
3
CL=90%
[
a
] An
`
indicates an
e
or a
mode, not a sum over these modes.
B
+
BRANCHING RATIOS
B
+
BRANCHING RATIOS
B
+
BRANCHING RATIOS
B
+
BRANCHING RATIOS
,
,
`
+
`
anything
/,
total
,
1
/,
,
,
`
+
`
anything
/,
total
,
1
/,
,
,
`
+
`
anything
/,
total
,
1
/,
,
,
`
+
`
anything
/,
total
,
1
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
1025
0
:
0057
0
:
0065
0
:
1025
0
:
0057
0
:
0065
0
:
1025
0
:
0057
0
:
0065
0
:
1025
0
:
0057
0
:
0065
12 ARTUSO
97 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
101
0
:
018
0
:
015
ATHANAS
94 CLE2 Sup. by ARTUSO 97
12ARTUSO 97 uses partial reconstruction of B
!
D
`
`
and inclusive semileptonic
branching ratio from BARISH 96
B
(0
:
1049
0
:
0017
0
:
0043).
HTTP://PDG.LBL.GOV
Page 7
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
0
`
+
`
/,
total
,
2
/,
,
,
D
0
`
+
`
/,
total
,
2
/,
,
,
D
0
`
+
`
/,
total
,
2
/,
,
,
D
0
`
+
`
/,
total
,
2
/,
`
= e or
, not sum over e and
modes.
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0186
0
:
0033 OUR AVERAGE
0
:
0186
0
:
0033 OUR AVERAGE
0
:
0186
0
:
0033 OUR AVERAGE
0
:
0186
0
:
0033 OUR AVERAGE
0
:
0194
0
:
0015
0
:
0034
13 ATHANAS 97 CLE2 e+e
,
!
(4S)
0
:
016
0
:
006
0
:
003
14 FULTON
91 CLEO e+e
,
!
(4S)
13ATHANAS 97 uses missing energy and missing momentumto reconstruct neutrino.
14FULTON 91 assumes equal production of B0B0 and B+B
,
at the (4S).
,
,
D
(2007)
0
`
+
`
/,
total
,
3
/,
,
,
D
(2007)
0
`
+
`
/,
total
,
3
/,
,
,
D
(2007)
0
`
+
`
/,
total
,
3
/,
,
,
D
(2007)
0
`
+
`
/,
total
,
3
/,
`
= e or
, not sum over e and
modes.
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
053
0
:
008 OUR AVERAGE
0
:
053
0
:
008 OUR AVERAGE
0
:
053
0
:
008 OUR AVERAGE
0
:
053
0
:
008 OUR AVERAGE
0
:
0513
0
:
0054
0
:
0064
302 15 BARISH
95 CLE2 e+e
,
!
(4S)
0
:
066
0
:
016
0
:
015
16 ALBRECHT 92
C
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
seen
398 17 SANGHERA 93 CLE2 e+e
,
!
(4S)
0
:
041
0
:
008 +0
:
008
,
0
:
009
18 FULTON
91 CLEO e+e
,
!
(4S)
0
:
070
0
:
018
0
:
014
19 ANTREASYAN 90
B
CBAL e+e
,
!
(4S)
15BARISH 95 use B(D0
!
K
,
+) = (3
:
91
0
:
08
0
:
17)% and B(D
0
!
D0
0)
= (63
:
6
2
:
3
3
:
3)%.
16ALBRECHT 92
C
reports 0
:
058
0
:
014
0
:
013. We rescale using the method described in
STONE 94 but with the updated PDG 94 B(D0
!
K
,
+). Assumes equal production
of B0B0 and B+B
,
at the (4S).
17Combining D
0
`
+
`
and D
,
`
+
`
SANGHERA 93 test V
,
A structure and t the
decay angular distributions to obtain AFB = 3/4
(,
,
,
,+)/, = 0
:
14
0
:
06
0
:
03.
Assuming a value of Vcb, they measure V, A1, and A2, the three form factors for the
D
`
`
decay, where results are slightly dependent on model assumptions.
18Assumes equal production of B0B0 and B+B
,
at the (4S). Uncorrected for D and
D
branching ratio assumptions.
19ANTREASYAN 90
B
is average over B and D
(2010) charge states.
,
,
D
1
(2420)
0
`
+
`
/,
total
,
4
/,
,
,
D
1
(2420)
0
`
+
`
/,
total
,
4
/,
,
,
D
1
(2420)
0
`
+
`
/,
total
,
4
/,
,
,
D
1
(2420)
0
`
+
`
/,
total
,
4
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0056
0
:
0013
0
:
0009
0
:
0056
0
:
0013
0
:
0009
0
:
0056
0
:
0013
0
:
0009
0
:
0056
0
:
0013
0
:
0009
20 ANASTASSOV 98 CLE2 e+e
,
!
(4S)
20ANASTASSOV 98 result is derived from the measurement of B(B+
!
D01
`
+
`
)
B(D01
!
D
+
,
) = (0
:
373
0
:
085
0
:
052
0
:
024)% by assuming
B(D01
!
D
+
,
) = 67%, where the third error includes theoretical uncertainties.
,
,
D
2
(2460)
0
`
+
`
/,
total
,
5
/,
,
,
D
2
(2460)
0
`
+
`
/,
total
,
5
/,
,
,
D
2
(2460)
0
`
+
`
/,
total
,
5
/,
,
,
D
2
(2460)
0
`
+
`
/,
total
,
5
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
8
10
,
3
<
8
10
,
3
<
8
10
,
3
<
8
10
,
3
90
21 ANASTASSOV 98 CLE2 e+e
,
!
(4S)
21ANASTASSOV 98 result is derived from the meausrement of B(B+
!
D
0
2
`
+
`
)
B(D
0
2
!
D
+
,
)
<
0
:
16% at 90% CL by assuming B(D
0
2
!
D
+
,
)
= 20%.
HTTP://PDG.LBL.GOV
Page 8
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
0
e
+
e
/,
total
,
6
/,
,
,
0
e
+
e
/,
total
,
6
/,
,
,
0
e
+
e
/,
total
,
6
/,
,
,
0
e
+
e
/,
total
,
6
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0022
<
0
:
0022
<
0
:
0022
<
0
:
0022
90
ANTREASYAN 90
B
CBAL e+e
,
!
(4S)
,
,
!
`
+
`
/,
total
,
7
/,
,
,
!
`
+
`
/,
total
,
7
/,
,
,
!
`
+
`
/,
total
,
7
/,
,
,
!
`
+
`
/,
total
,
7
/,
`
= e or
, not sum over e and
modes.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
1
10
,
4
<
2
:
1
10
,
4
<
2
:
1
10
,
4
<
2
:
1
10
,
4
90
22 BEAN
93
B
CLE2 e+e
,
!
(4S)
22BEAN 93
B
limit set using ISGW Model. Using isospin and the quark model to combine
,(
0
`
+
`
) and ,(
,
`
+
`
) with this result, they obtain a limit
<
(1
:
6{2
:
7)
10
,
4 at
90% CL for B+
!
!
`
+
`
. The range corresponds to the ISGW, WSB, and KS models.
An upper limit on
Vub/Vcb
<
0
:
8{0
:
13 at 90% CL is derived as well.
,
,
!
+
/,
total
,
8
/,
,
,
!
+
/,
total
,
8
/,
,
,
!
+
/,
total
,
8
/,
,
,
!
+
/,
total
,
8
/,
V
ALUE
DOCUMENT
ID
TECN
We do not use the following data for averages, ts, limits, etc.
seen
23 ALBRECHT 91
C
ARG
23In ALBRECHT 91
C
, one event is fully reconstructed providing evidence for the b
!
u
transition.
,
,
0
`
+
`
/,
total
,
9
/,
,
,
0
`
+
`
/,
total
,
9
/,
,
,
0
`
+
`
/,
total
,
9
/,
,
,
0
`
+
`
/,
total
,
9
/,
`
= e or
, not sum over e and
modes.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
1
10
,
4
<
2
:
1
10
,
4
<
2
:
1
10
,
4
<
2
:
1
10
,
4
90
24 BEAN
93
B
CLE2 e+e
,
!
(4S)
24BEAN 93
B
limit set using ISGW Model. Using isospin and the quark model to combine
,(
!
0
`
+
`
) and ,(
,
`
+
`
) with this result, they obtain a limit
<
(1
:
6{2
:
7)
10
,
4
at 90% CL for B+
!
0
`
+
`
. The range corresponds to the ISGW, WSB, and KS
models. An upper limit on
Vub/Vcb
<
0
:
8{0
:
13 at 90% CL is derived as well.
,
,
e
+
e
/,
total
,
10
/,
,
,
e
+
e
/,
total
,
10
/,
,
,
e
+
e
/,
total
,
10
/,
,
,
e
+
e
/,
total
,
10
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
5
10
,
5
<
1
:
5
10
,
5
<
1
:
5
10
,
5
<
1
:
5
10
,
5
90
ARTUSO
95 CLE2 e+e
,
!
(4S)
,
,
+
/,
total
,
11
/,
,
,
+
/,
total
,
11
/,
,
,
+
/,
total
,
11
/,
,
,
+
/,
total
,
11
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
1
10
,
5
<
2
:
1
10
,
5
<
2
:
1
10
,
5
<
2
:
1
10
,
5
90
ARTUSO
95 CLE2 e+e
,
!
(4S)
,
,
+
/,
total
,
12
/,
,
,
+
/,
total
,
12
/,
,
,
+
/,
total
,
12
/,
,
,
+
/,
total
,
12
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
5
:
7
10
,
4
<
5
:
7
10
,
4
<
5
:
7
10
,
4
<
5
:
7
10
,
4
90
25 ACCIARRI
97
F
L3
e+e
,
!
Z
We do not use the following data for averages, ts, limits, etc.
<
1
:
04
10
,
2
90
26 ALBRECHT 95
D
ARG e+e
,
!
(4S)
<
2
:
2
10
,
3
90
ARTUSO
95 CLE2 e+e
,
!
(4S)
<
1
:
8
10
,
3
90
27 BUSKULIC 95 ALEP e+e
,
!
Z
25ACCIARRI 97
F
uses missing-energy technique and f (b
!
B
,
) = (38
:
2
2
:
5)%.
26ALBRECHT 95
D
use full reconstruction of one B decay as tag.
27BUSKULIC 95 uses same missing-energy technique as in b
!
+
X, but analysis is
restricted to endpoint region of missing-energy distribution.
HTTP://PDG.LBL.GOV
Page 9
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
e
+
e
/,
total
,
13
/,
,
,
e
+
e
/,
total
,
13
/,
,
,
e
+
e
/,
total
,
13
/,
,
,
e
+
e
/,
total
,
13
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
0
10
,
4
<
2
:
0
10
,
4
<
2
:
0
10
,
4
<
2
:
0
10
,
4
90
28 BROWDER 97 CLE2 e+e
,
!
(4S)
28BROWDER 97 uses the hermiticity of the CLEOII detector to reconstruct the neutrino
energy and momentum.
,
,
+
/,
total
,
14
/,
,
,
+
/,
total
,
14
/,
,
,
+
/,
total
,
14
/,
,
,
+
/,
total
,
14
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
5
:
2
10
,
5
<
5
:
2
10
,
5
<
5
:
2
10
,
5
<
5
:
2
10
,
5
90
29 BROWDER 97 CLE2 e+e
,
!
(4S)
29BROWDER 97 uses the hermiticity of the CLEOII detector to reconstruct the neutrino
energy and momentum.
,
,
D
0
+
/,
total
,
15
/,
,
,
D
0
+
/,
total
,
15
/,
,
,
D
0
+
/,
total
,
15
/,
,
,
D
0
+
/,
total
,
15
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0053
0
:
0005 OUR AVERAGE
0
:
0053
0
:
0005 OUR AVERAGE
0
:
0053
0
:
0005 OUR AVERAGE
0
:
0053
0
:
0005 OUR AVERAGE
0
:
0055
0
:
0004
0
:
0005
304 30 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
0050
0
:
0007
0
:
0006
54 31 BORTOLETTO92 CLEO e+e
,
!
(4S)
0
:
0054+0
:
0018
,
0
:
0015 +0
:
0012
,
0
:
0009
14 32 BEBEK
87 CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
0020
0
:
0008
0
:
0006
12 31 ALBRECHT 90
J
ARG e+e
,
!
(4S)
0
:
0019
0
:
0010
0
:
0006
7 33 ALBRECHT 88
K
ARG e+e
,
!
(4S)
30ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+)
and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+).
31Assumes equal production of B+ and B0 at the (4S) and uses the MarkIII branching
fractions for the D.
32BEBEK 87 value has been updated in BERKELMAN 91 to use same assumptions as
noted for BORTOLETTO 92.
33ALBRECHT 88
K
assumes B0 B0:B+B
,
ratio is 45:55. Superseded by ALBRECHT 90
J
.
,
,
D
0
+
/,
total
,
16
/,
,
,
D
0
+
/,
total
,
16
/,
,
,
D
0
+
/,
total
,
16
/,
,
,
D
0
+
/,
total
,
16
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0134
0
:
0018 OUR AVERAGE
0
:
0134
0
:
0018 OUR AVERAGE
0
:
0134
0
:
0018 OUR AVERAGE
0
:
0134
0
:
0018 OUR AVERAGE
0
:
0135
0
:
0012
0
:
0015
212 34 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
013
0
:
004
0
:
004
19 35 ALBRECHT 90
J
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
021
0
:
008
0
:
009
10 36 ALBRECHT 88
K
ARG e+e
,
!
(4S)
34ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+)
and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+).
35Assumes equal production of B+ and B0 at the (4S) and uses the MarkIII branching
fractions for the D.
36ALBRECHT 88
K
assumes B0B0:B+B
,
ratio is 45:55.
HTTP://PDG.LBL.GOV
Page 10
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
0
K
+
/,
total
,
17
/,
,
,
D
0
K
+
/,
total
,
17
/,
,
,
D
0
K
+
/,
total
,
17
/,
,
,
D
0
K
+
/,
total
,
17
/,
V
ALUE
(units 10
,
4)
DOCUMENT
ID
TECN
COMMENT
2
:
92
0
:
80
0
:
28
2
:
92
0
:
80
0
:
28
2
:
92
0
:
80
0
:
28
2
:
92
0
:
80
0
:
28
37 ATHANAS 98 CLE2 e+e
,
!
(4S)
37ATHANAS 98 reports [B(B+
!
D0K+)]/[B(B+
!
D0
+)] =0
:
055
0
:
014
0
:
005.
We multiply by our best value B(B+
!
D0
+)= (5
:
3
0
:
5)
10
,
3. Our rst error
is their experiment's error and our second error is the systematic error from using our
best value.
,
,
D
0
+
+
,
/,
total
,
18
/,
,
,
D
0
+
+
,
/,
total
,
18
/,
,
,
D
0
+
+
,
/,
total
,
18
/,
,
,
D
0
+
+
,
/,
total
,
18
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0115
0
:
0029
0
:
0021
0
:
0115
0
:
0029
0
:
0021
0
:
0115
0
:
0029
0
:
0021
0
:
0115
0
:
0029
0
:
0021
38 BORTOLETTO92 CLEO e+e
,
!
(4S)
38BORTOLETTO 92 assumes equal production of B+ and B0 at the (4S) and uses
Mark III branching fractions for the D.
,
,
D
0
+
+
,
nonresonant
/,
total
,
19
/,
,
,
D
0
+
+
,
nonresonant
/,
total
,
19
/,
,
,
D
0
+
+
,
nonresonant
/,
total
,
19
/,
,
,
D
0
+
+
,
nonresonant
/,
total
,
19
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0051
0
:
0034
0
:
0023
0
:
0051
0
:
0034
0
:
0023
0
:
0051
0
:
0034
0
:
0023
0
:
0051
0
:
0034
0
:
0023
39 BORTOLETTO92 CLEO e+e
,
!
(4S)
39BORTOLETTO 92 assumes equal production of B+ and B0 at the (4S) and uses
Mark III branching fractions for the D.
,
,
D
0
+
0
/,
total
,
20
/,
,
,
D
0
+
0
/,
total
,
20
/,
,
,
D
0
+
0
/,
total
,
20
/,
,
,
D
0
+
0
/,
total
,
20
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0042
0
:
0023
0
:
0020
0
:
0042
0
:
0023
0
:
0020
0
:
0042
0
:
0023
0
:
0020
0
:
0042
0
:
0023
0
:
0020
40 BORTOLETTO92 CLEO e+e
,
!
(4S)
40BORTOLETTO 92 assumes equal production of B+ and B0 at the (4S) and uses
Mark III branching fractions for the D.
,
,
D
0
a
1
(1260)
+
/,
total
,
21
/,
,
,
D
0
a
1
(1260)
+
/,
total
,
21
/,
,
,
D
0
a
1
(1260)
+
/,
total
,
21
/,
,
,
D
0
a
1
(1260)
+
/,
total
,
21
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0045
0
:
0019
0
:
0031
0
:
0045
0
:
0019
0
:
0031
0
:
0045
0
:
0019
0
:
0031
0
:
0045
0
:
0019
0
:
0031
41 BORTOLETTO92 CLEO e+e
,
!
(4S)
41BORTOLETTO 92 assumes equal production of B+ and B0 at the (4S) and uses
Mark III branching fractions for the D.
,
,
D
(2010)
,
+
+
/,
total
,
22
/,
,
,
D
(2010)
,
+
+
/,
total
,
22
/,
,
,
D
(2010)
,
+
+
/,
total
,
22
/,
,
,
D
(2010)
,
+
+
/,
total
,
22
/,
V
ALUE
CL%
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0021
0
:
0006 OUR AVERAGE
0
:
0021
0
:
0006 OUR AVERAGE
0
:
0021
0
:
0006 OUR AVERAGE
0
:
0021
0
:
0006 OUR AVERAGE
0
:
0019
0
:
0007
0
:
0003
14 42 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
0026
0
:
0014
0
:
0007
11 43 ALBRECHT 90
J
ARG e+e
,
!
(4S)
0
:
0024+0
:
0017
,
0
:
0016 +0
:
0010
,
0
:
0006
3 44 BEBEK
87 CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
004
90
45 BORTOLETTO92 CLEO e+e
,
!
(4S)
0
:
005
0
:
002
0
:
003
7 46 ALBRECHT 87
C
ARG e+e
,
!
(4S)
42ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2010)+
!
D0
+) and absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+) and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+).
HTTP://PDG.LBL.GOV
Page 11
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
43Assumes equal production of B+ and B0 at the (4S) and uses the MarkIII branching
fractions for the D.
44BEBEK 87 value has been updated in BERKELMAN 91 to use same assumptions as
noted for BORTOLETTO 92.
45BORTOLETTO 92 assumes equal production of B+ and B0 at the (4S) and uses
Mark III branching fractions for the D and D
(2010). The authors also nd the product
branching fraction into D
followed by D
!
D
(2010)
to be 0
:
0014+0
:
0008
,
0
:
0006
0
:
0003 where D
represents all orbitally excited D mesons.
46ALBRECHT 87
C
use PDG 86 branching ratios for D and D
(2010) and assume
B((4S)
!
B+ B
,
) = 55% and B((4S)
!
B0 B0) = 45%. Superseded by AL-
BRECHT 90
J
.
,
,
D
,
+
+
/,
total
,
23
/,
,
,
D
,
+
+
/,
total
,
23
/,
,
,
D
,
+
+
/,
total
,
23
/,
,
,
D
,
+
+
/,
total
,
23
/,
V
ALUE
CL%
EVTS
DOCUMENT
ID
TECN
COMMENT
<
0
:
0014
<
0
:
0014
<
0
:
0014
<
0
:
0014
90
47 ALAM
94 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
007
90
48 BORTOLETTO92 CLEO e+e
,
!
(4S)
0
:
0025+0
:
0041
,
0
:
0023 +0
:
0024
,
0
:
0008
1 49 BEBEK
87 CLEO e+e
,
!
(4S)
47ALAM 94 assume equal production of B+ and B0 at the (4S) and use the MarkIII
B(D+
!
K
,
+
+).
48BORTOLETTO 92 assumes equal production of B+ and B0 at the (4S) and uses
Mark III branching fractions for the D. The product branching fraction into D
0(2340)
followed by D
0(2340)
!
D
is
<
0
:
005 at 90%CL and into D
2(2460) followed by
D
2(2460)
!
D
is
<
0
:
004 at 90%CL.
49BEBEK 87 assume the (4S) decays 43% to B0B0. B(D
,
!
K+
,
,
) = (9
:
1
1
:
3
0
:
4)% is assumed.
,
,
D
(2007)
0
+
/,
total
,
24
/,
,
,
D
(2007)
0
+
/,
total
,
24
/,
,
,
D
(2007)
0
+
/,
total
,
24
/,
,
,
D
(2007)
0
+
/,
total
,
24
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0046
0
:
0004 OUR AVERAGE
0
:
0046
0
:
0004 OUR AVERAGE
0
:
0046
0
:
0004 OUR AVERAGE
0
:
0046
0
:
0004 OUR AVERAGE
0
:
00434
0
:
00047
0
:
00018
50 BRANDENB... 98 CLE2 e+e
,
!
(4S)
0
:
0052
0
:
0007
0
:
0007
71 51 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
0072
0
:
0018
0
:
0016
52 BORTOLETTO92 CLEO e+e
,
!
(4S)
0
:
0040
0
:
0014
0
:
0012
9 52 ALBRECHT 90
J
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
0027
0
:
0044
53 BEBEK
87 CLEO e+e
,
!
(4S)
50BRANDENBURG 98 assume equal production of B+ and B0 at (4S) and use the D
reconstruction technique. The rst error is their experiment's error and the second error
is the systematic error from the PDG 96 value of B(D
!
D
).
51ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2007)0
!
D0
0) and absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+) and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+).
52Assumes equal production of B+ and B0 at the (4S) and uses MarkIII branching
fractions for the D and D
(2010).
53This is a derived branching ratio, using the inclusive pion spectrum and other two-body
B decays. BEBEK 87 assume the (4S) decays 43% to B0B0.
HTTP://PDG.LBL.GOV
Page 12
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
(2010)
+
0
/,
total
,
25
/,
,
,
D
(2010)
+
0
/,
total
,
25
/,
,
,
D
(2010)
+
0
/,
total
,
25
/,
,
,
D
(2010)
+
0
/,
total
,
25
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
00017
<
0
:
00017
<
0
:
00017
<
0
:
00017
90
54 BRANDENB... 98 CLE2 e+e
,
!
(4S)
54BRANDENBURG 98 assume equal production of B+ and B0 at (4S) and use the
D
partial reconstruction technique. The rst error is their experiment's error and the
second error is the systematic error from the PDG 96 value of B(D
!
D
).
,
,
D
(2007)
0
+
/,
total
,
26
/,
,
,
D
(2007)
0
+
/,
total
,
26
/,
,
,
D
(2007)
0
+
/,
total
,
26
/,
,
,
D
(2007)
0
+
/,
total
,
26
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0155
0
:
0031 OUR AVERAGE
0
:
0155
0
:
0031 OUR AVERAGE
0
:
0155
0
:
0031 OUR AVERAGE
0
:
0155
0
:
0031 OUR AVERAGE
0
:
0168
0
:
0021
0
:
0028
86 55 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
010
0
:
006
0
:
004
7 56 ALBRECHT 90
J
ARG e+e
,
!
(4S)
55ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2007)0
!
D0
0) and absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+) and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+). The
nonresonant
+
0 contribution under the
+ is negligible.
56Assumes equal production of B+ and B0 at the (4S) and uses MarkIII branching
fractions for the D and D
(2010).
,
,
D
(2007)
0
+
+
,
/,
total
,
27
/,
,
,
D
(2007)
0
+
+
,
/,
total
,
27
/,
,
,
D
(2007)
0
+
+
,
/,
total
,
27
/,
,
,
D
(2007)
0
+
+
,
/,
total
,
27
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0094
0
:
0020
0
:
0017
0
:
0094
0
:
0020
0
:
0017
0
:
0094
0
:
0020
0
:
0017
0
:
0094
0
:
0020
0
:
0017
48 57
;
58 ALAM
94 CLE2 e+e
,
!
(4S)
57ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2007)0
!
D0
0) and absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+) and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+).
58The three pion mass is required to be between 1
:
0 and 1
:
6 GeV consistent with an a1
meson. (If this channel is dominated by a+1, the branching ratio for D
0a+1 is twicethat
for D
0
+
+
,
.)
,
,
D
(2007)
0
a
1
(1260)
+
/,
total
,
28
/,
,
,
D
(2007)
0
a
1
(1260)
+
/,
total
,
28
/,
,
,
D
(2007)
0
a
1
(1260)
+
/,
total
,
28
/,
,
,
D
(2007)
0
a
1
(1260)
+
/,
total
,
28
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
0188
0
:
0040
0
:
0034
0
:
0188
0
:
0040
0
:
0034
0
:
0188
0
:
0040
0
:
0034
0
:
0188
0
:
0040
0
:
0034
59
;
60 ALAM
94 CLE2 e+e
,
!
(4S)
59ALAM 94 value is twice their ,(D
(2007)0
+
+
,
)/,total value based on their
observation that the three pions are dominantly in the a1(1260) mass range 1
:
0 to 1
:
6
GeV.
60ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2007)0
!
D0
0) and absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+) and B(D0
!
K
,
+
+
,
)/B(D0
!
K
,
+).
,
,
D
(2010)
,
+
+
0
/,
total
,
29
/,
,
,
D
(2010)
,
+
+
0
/,
total
,
29
/,
,
,
D
(2010)
,
+
+
0
/,
total
,
29
/,
,
,
D
(2010)
,
+
+
0
/,
total
,
29
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0152
0
:
0071
0
:
0001
0
:
0152
0
:
0071
0
:
0001
0
:
0152
0
:
0071
0
:
0001
0
:
0152
0
:
0071
0
:
0001
26 61 ALBRECHT 90
J
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
043
0
:
013
0
:
026
24 62 ALBRECHT 87
C
ARG e+e
,
!
(4S)
61ALBRECHT 90
J
reports 0
:
018
0
:
007
0
:
005 for B(D
(2010)+
!
D0
+) = 0
:
57
0
:
06. We rescale to our best value B(D
(2010)+
!
D0
+) = (67
:
7
0
:
5)
10
,
2.
Our rst error is their experiment's error and our second error is the systematic error
HTTP://PDG.LBL.GOV
Page 13
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
from using our best value. Assumes equal production of B+ and B0 at the (4S) and
uses Mark III branching fractions for the D.
62ALBRECHT 87
C
use PDG 86 branching ratios for D and D
(2010) and assume
B((4S)
!
B+ B
,
) = 55% and B((4S)
!
B0 B0) = 45%. Superseded by AL-
BRECHT 90
J
.
,
,
D
(2010)
,
+
+
+
,
/,
total
,
30
/,
,
,
D
(2010)
,
+
+
+
,
/,
total
,
30
/,
,
,
D
(2010)
,
+
+
+
,
/,
total
,
30
/,
,
,
D
(2010)
,
+
+
+
,
/,
total
,
30
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
01
<
0
:
01
<
0
:
01
<
0
:
01
90
63 ALBRECHT 90
J
ARG e+e
,
!
(4S)
63Assumes equal production of B+ and B0 at the (4S) and uses MarkIII branching
fractions for the D and D
(2010).
,
,
D
1
(2420)
0
+
/,
total
,
31
/,
,
,
D
1
(2420)
0
+
/,
total
,
31
/,
,
,
D
1
(2420)
0
+
/,
total
,
31
/,
,
,
D
1
(2420)
0
+
/,
total
,
31
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0015
0
:
0006 OUR AVERAGE
0
:
0015
0
:
0006 OUR AVERAGE
0
:
0015
0
:
0006 OUR AVERAGE
0
:
0015
0
:
0006 OUR AVERAGE Error includes scale factor of 1.3.
0
:
0011
0
:
0005
0
:
0002
8 64 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
0025
0
:
0007
0
:
0006
65 ALBRECHT 94
D
ARG e+e
,
!
(4S)
64ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2010)+
!
D0
+) and absolute B(D0
!
K
,
+) and the PDG 1992 B(D0
!
K
,
+
0)/B(D0
!
K
,
+) and assumingB(D1(2420)0
!
D
(2010)+
,
) = 67%.
65ALBRECHT 94
D
assume equal production of B+ and B0 at the (4S) and use the
CLEO II B(D
(2010)+
!
D0
+) assuming B(D1(2420)0
!
D
(2010)+
,
) =
67%.
,
,
D
1
(2420)
0
+
/,
total
,
32
/,
,
,
D
1
(2420)
0
+
/,
total
,
32
/,
,
,
D
1
(2420)
0
+
/,
total
,
32
/,
,
,
D
1
(2420)
0
+
/,
total
,
32
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0014
<
0
:
0014
<
0
:
0014
<
0
:
0014
90
66 ALAM
94 CLE2 e+e
,
!
(4S)
66ALAM 94 assume equal production of B+ and B0 at the (4S) and use the CLEOII
B(D
(2010)+
!
D0
+) assuming B(D1(2420)0
!
D
(2010)+
,
) = 67%.
,
,
D
2
(2460)
0
+
/,
total
,
33
/,
,
,
D
2
(2460)
0
+
/,
total
,
33
/,
,
,
D
2
(2460)
0
+
/,
total
,
33
/,
,
,
D
2
(2460)
0
+
/,
total
,
33
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0013
<
0
:
0013
<
0
:
0013
<
0
:
0013
90
67 ALAM
94 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0028
90
68 ALAM
94 CLE2 e+e
,
!
(4S)
<
0
:
0023
90
69 ALBRECHT 94
D
ARG e+e
,
!
(4S)
67ALAM 94 assume equal production of B+ and B0 at the (4S) and use the MarkIII
B(D+
!
K
,
+
+) and B(D
2(2460)0
!
D+
,
) = 30%.
68ALAM 94 assume equal production of B+ and B0 at the (4S) and use the MarkIII
B(D+
!
K
,
+
+), the CLEOII B(D
(2010)+
!
D0
+) and B(D
2(2460)0
!
D
(2010)+
,
) = 20%.
69ALBRECHT 94
D
assume equal production of B+ and B0 at the (4S) and use the
CLEO II B(D
(2010)+
!
D0
+) and B(D
2(2460)0
!
D
(2010)+
,
) = 30%.
HTTP://PDG.LBL.GOV
Page 14
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
2
(2460)
0
+
/,
total
,
34
/,
,
,
D
2
(2460)
0
+
/,
total
,
34
/,
,
,
D
2
(2460)
0
+
/,
total
,
34
/,
,
,
D
2
(2460)
0
+
/,
total
,
34
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0047
<
0
:
0047
<
0
:
0047
<
0
:
0047
90
70 ALAM
94 CLE2 e+e
,
!
(4S)
<
0
:
005
90
71 ALAM
94 CLE2 e+e
,
!
(4S)
70ALAM 94 assume equal production of B+ and B0 at the (4S) and use the MarkIII
B(D+
!
K
,
+
+) and B(D
2(2460)0
!
D+
,
) = 30%.
71ALAM 94 assume equal production of B+ and B0 at the (4S) and use the MarkIII
B(D+
!
K
,
+
+), the CLEOII B(D
(2010)+
!
D0
+) and B(D
2(2460)0
!
D
(2010)+
,
) = 20%.
,
,
D
0
D
+
s
/,
total
,
35
/,
,
,
D
0
D
+
s
/,
total
,
35
/,
,
,
D
0
D
+
s
/,
total
,
35
/,
,
,
D
0
D
+
s
/,
total
,
35
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
013
0
:
004 OUR AVERAGE
0
:
013
0
:
004 OUR AVERAGE
0
:
013
0
:
004 OUR AVERAGE
0
:
013
0
:
004 OUR AVERAGE
0
:
0122
0
:
0032+0
:
0029
,
0
:
0030
72 GIBAUT
96 CLE2 e+e
,
!
(4S)
0
:
018
0
:
009
0
:
004
73 ALBRECHT 92
G
ARG e+e
,
!
(4S)
0
:
016
0
:
007
0
:
004
5 74 BORTOLETTO90 CLEO e+e
,
!
(4S)
72GIBAUT 96 reports 0
:
0126
0
:
0022
0
:
0025 for B(D+s
!
+) = 0
:
035. We rescale
to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
73ALBRECHT 92
G
reports 0
:
024
0
:
012
0
:
004 for B(D+s
!
+) = 0
:
027. We
rescale to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
Assumes PDG 1990 D0 branching ratios, e.g., B(D0
!
K
,
+) = 3
:
71
0
:
25%.
74BORTOLETTO 90 reports 0
:
029
0
:
013 for B(D+s
!
+) = 0
:
02. We rescale to our
best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their experiment's
error and our second error is the systematic error from using our best value.
,
,
D
0
D
+
s
/,
total
,
36
/,
,
,
D
0
D
+
s
/,
total
,
36
/,
,
,
D
0
D
+
s
/,
total
,
36
/,
,
,
D
0
D
+
s
/,
total
,
36
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
009
0
:
004 OUR AVERAGE
0
:
009
0
:
004 OUR AVERAGE
0
:
009
0
:
004 OUR AVERAGE
0
:
009
0
:
004 OUR AVERAGE
0
:
0084
0
:
0031+0
:
0020
,
0
:
0021
75 GIBAUT
96 CLE2 e+e
,
!
(4S)
0
:
012
0
:
009
0
:
003
76 ALBRECHT 92
G
ARG e+e
,
!
(4S)
75GIBAUT 96 reports 0
:
0087
0
:
0027
0
:
0017 for B(D+s
!
+) = 0
:
035. We rescale
to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
76ALBRECHT 92
G
reports 0
:
016
0
:
012
0
:
003 for B(D+s
!
+) = 0
:
027. We
rescale to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
Assumes PDG 1990 D0 branching ratios, e.g., B(D0
!
K
,
+) = 3
:
71
0
:
25%.
HTTP://PDG.LBL.GOV
Page 15
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
(2007)
0
D
+
s
/,
total
,
37
/,
,
,
D
(2007)
0
D
+s
/,
total
,
37
/,
,
,
D
(2007)
0
D
+
s
/,
total
,
37
/,
,
,
D
(2007)
0
D
+s
/,
total
,
37
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
012
0
:
005 OUR AVERAGE
0
:
012
0
:
005 OUR AVERAGE
0
:
012
0
:
005 OUR AVERAGE
0
:
012
0
:
005 OUR AVERAGE
0
:
014
0
:
005
0
:
003
77 GIBAUT
96 CLE2 e+e
,
!
(4S)
0
:
010
0
:
007
0
:
002
78 ALBRECHT 92
G
ARG e+e
,
!
(4S)
77GIBAUT 96 reports 0
:
0140
0
:
0043
0
:
0035 for B(D+s
!
+) = 0
:
035. We rescale
to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
78ALBRECHT 92
G
reports 0
:
013
0
:
009
0
:
002 for B(D+s
!
+) = 0
:
027. We
rescale to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
Assumes PDG 1990 D0 and D
(2007)0 branching ratios, e.g., B(D0
!
K
,
+) =
3
:
71
0
:
25% and B(D
(2007)0
!
D0
0) = 55
6%.
,
,
D
(2007)
0
D
+
s
/,
total
,
38
/,
,
,
D
(2007)
0
D
+
s
/,
total
,
38
/,
,
,
D
(2007)
0
D
+
s
/,
total
,
38
/,
,
,
D
(2007)
0
D
+
s
/,
total
,
38
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
0
:
027
0
:
010 OUR AVERAGE
0
:
027
0
:
010 OUR AVERAGE
0
:
027
0
:
010 OUR AVERAGE
0
:
027
0
:
010 OUR AVERAGE
0
:
030
0
:
011
0
:
007
79 GIBAUT
96 CLE2 e+e
,
!
(4S)
0
:
023
0
:
013
0
:
006
80 ALBRECHT 92
G
ARG e+e
,
!
(4S)
79GIBAUT 96 reports 0
:
0310
0
:
0088
0
:
0065 for B(D+s
!
+) = 0
:
035. We rescale
to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
80ALBRECHT 92
G
reports 0
:
031
0
:
016
0
:
005 for B(D+s
!
+) = 0
:
027. We
rescale to our best value B(D+s
!
+) = (3
:
6
0
:
9)
10
,
2. Our rst error is their
experiment's error and our second error is the systematic error from using our best value.
Assumes PDG 1990 D0 and D
(2007)0 branching ratios, e.g., B(D0
!
K
,
+) =
3
:
71
0
:
25% and B(D
(2007)0
!
D0
0) = 55
6%.
,
,
D
(2007)
0
D
(2010)
+
/,
total
,
39
/,
,
,
D
(2007)
0
D
(2010)
+
/,
total
,
39
/,
,
,
D
(2007)
0
D
(2010)
+
/,
total
,
39
/,
,
,
D
(2007)
0
D
(2010)
+
/,
total
,
39
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
011
<
0
:
011
<
0
:
011
<
0
:
011
90
BARATE
98
Q
ALEP e+e
,
!
Z
,
,
D
0
D
(2010)
+
+ ,
,
D
(2007)
0
D
+
/,
total
,
40
/,
,
,
D
0
D
(2010)
+
+ ,
,
D
(2007)
0
D
+
/,
total
,
40
/,
,
,
D
0
D
(2010)
+
+ ,
,
D
(2007)
0
D
+
/,
total
,
40
/,
,
,
D
0
D
(2010)
+
+ ,
,
D
(2007)
0
D
+
/,
total
,
40
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
013
<
0
:
013
<
0
:
013
<
0
:
013
90
BARATE
98
Q
ALEP e+e
,
!
Z
,
,
D
0
D
+
/,
total
,
41
/,
,
,
D
0
D
+
/,
total
,
41
/,
,
,
D
0
D
+
/,
total
,
41
/,
,
,
D
0
D
+
/,
total
,
41
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0067
<
0
:
0067
<
0
:
0067
<
0
:
0067
90
BARATE
98
Q
ALEP e+e
,
!
Z
,
,
D
+
s
0
/,
total
,
42
/,
,
,
D
+
s
0
/,
total
,
42
/,
,
,
D
+
s
0
/,
total
,
42
/,
,
,
D
+
s
0
/,
total
,
42
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
00020
<
0
:
00020
<
0
:
00020
<
0
:
00020
90
81 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
81ALEXANDER 93
B
reports
<
2
:
0
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
HTTP://PDG.LBL.GOV
Page 16
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
+
s
0
+ ,
,
D
+
s
0
/,
total
(,
42
+,
43
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
0
/,
total
(,
42
+,
43
)/,
,
,
D
+
s
0
+,
,
D
+
s
0
/,
total
(,
42
+,
43
)/,
,
,
D
+
s
0
+,
,
D
+
s
0
/,
total
(,
42
+,
43
)/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0007
<
0
:
0007
<
0
:
0007
<
0
:
0007
90
82 ALBRECHT 93
E
ARG e+e
,
!
(4S)
82ALBRECHT 93
E
reports
<
0
:
9
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
0
/,
total
,
43
/,
,
,
D
+
s
0
/,
total
,
43
/,
,
,
D
+
s
0
/,
total
,
43
/,
,
,
D
+
s
0
/,
total
,
43
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
00033
<
0
:
00033
<
0
:
00033
<
0
:
00033
90
83 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
83ALEXANDER 93
B
reports
<
3
:
2
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
/,
total
,
44
/,
,
,
D
+
s
/,
total
,
44
/,
,
,
D
+
s
/,
total
,
44
/,
,
,
D
+
s
/,
total
,
44
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0005
<
0
:
0005
<
0
:
0005
<
0
:
0005
90
84 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
84ALEXANDER 93
B
reports
<
4
:
6
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
/,
total
,
45
/,
,
,
D
+
s
/,
total
,
45
/,
,
,
D
+
s
/,
total
,
45
/,
,
,
D
+
s
/,
total
,
45
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0008
<
0
:
0008
<
0
:
0008
<
0
:
0008
90
85 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
85ALEXANDER 93
B
reports
<
7
:
5
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
0
/,
total
,
46
/,
,
,
D
+
s
0
/,
total
,
46
/,
,
,
D
+
s
0
/,
total
,
46
/,
,
,
D
+
s
0
/,
total
,
46
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0004
<
0
:
0004
<
0
:
0004
<
0
:
0004
90
86 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
86ALEXANDER 93
B
reports
<
3
:
7
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
46
+,
56
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
46
+,
56
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
46
+,
56
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
46
+,
56
)/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0025
<
0
:
0025
<
0
:
0025
<
0
:
0025
90
87 ALBRECHT 93
E
ARG e+e
,
!
(4S)
87ALBRECHT 93
E
reports
<
3
:
4
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
0
/,
total
,
47
/,
,
,
D
+
s
0
/,
total
,
47
/,
,
,
D
+
s
0
/,
total
,
47
/,
,
,
D
+
s
0
/,
total
,
47
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0005
<
0
:
0005
<
0
:
0005
<
0
:
0005
90
88 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
88ALEXANDER 93
B
reports
<
4
:
8
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
HTTP://PDG.LBL.GOV
Page 17
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
47
+,
57
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
47
+,
57
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
47
+,
57
)/,
,
,
D
+
s
0
+ ,
,
D
+
s
K
(892)
0
/,
total
(,
47
+,
57
)/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0015
<
0
:
0015
<
0
:
0015
<
0
:
0015
90
89 ALBRECHT 93
E
ARG e+e
,
!
(4S)
89ALBRECHT 93
E
reports
<
2
:
0
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
!
/,
total
,
48
/,
,
,
D
+
s
!
/,
total
,
48
/,
,
,
D
+
s
!
/,
total
,
48
/,
,
,
D
+
s
!
/,
total
,
48
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0005
<
0
:
0005
<
0
:
0005
<
0
:
0005
90
90 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0025
90
91 ALBRECHT 93
E
ARG e+e
,
!
(4S)
90ALEXANDER 93
B
reports
<
4
:
8
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
91ALBRECHT 93
E
reports
<
3
:
4
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
!
/,
total
,
49
/,
,
,
D
+
s
!
/,
total
,
49
/,
,
,
D
+
s
!
/,
total
,
49
/,
,
,
D
+
s
!
/,
total
,
49
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0007
<
0
:
0007
<
0
:
0007
<
0
:
0007
90
92 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0014
90
93 ALBRECHT 93
E
ARG e+e
,
!
(4S)
92ALEXANDER 93
B
reports
<
6
:
8
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
93ALBRECHT 93
E
reports
<
1
:
9
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
a
1
(1260)
0
/,
total
,
50
/,
,
,
D
+
s
a
1
(1260)
0
/,
total
,
50
/,
,
,
D
+
s
a
1
(1260)
0
/,
total
,
50
/,
,
,
D
+
s
a
1
(1260)
0
/,
total
,
50
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0022
<
0
:
0022
<
0
:
0022
<
0
:
0022
90
94 ALBRECHT 93
E
ARG e+e
,
!
(4S)
94ALBRECHT 93
E
reports
<
3
:
0
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
a
1
(1260)
0
/,
total
,
51
/,
,
,
D
+
s
a
1
(1260)
0
/,
total
,
51
/,
,
,
D
+
s
a
1
(1260)
0
/,
total
,
51
/,
,
,
D
+
s
a
1
(1260)
0
/,
total
,
51
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0016
<
0
:
0016
<
0
:
0016
<
0
:
0016
90
95 ALBRECHT 93
E
ARG e+e
,
!
(4S)
95ALBRECHT 93
E
reports
<
2
:
2
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
HTTP://PDG.LBL.GOV
Page 18
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
+
s
/,
total
,
52
/,
,
,
D
+
s
/,
total
,
52
/,
,
,
D
+
s
/,
total
,
52
/,
,
,
D
+
s
/,
total
,
52
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
00032
<
0
:
00032
<
0
:
00032
<
0
:
00032
90
96 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0013
90
97 ALBRECHT 93
E
ARG e+e
,
!
(4S)
96ALEXANDER 93
B
reports
<
3
:
1
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
97ALBRECHT 93
E
reports
<
1
:
7
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
/,
total
,
53
/,
,
,
D
+
s
/,
total
,
53
/,
,
,
D
+
s
/,
total
,
53
/,
,
,
D
+
s
/,
total
,
53
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0004
<
0
:
0004
<
0
:
0004
<
0
:
0004
90
98 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0016
90
99 ALBRECHT 93
E
ARG e+e
,
!
(4S)
98ALEXANDER 93
B
reports
<
4
:
2
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
99ALBRECHT 93
E
reports
<
2
:
1
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
K
0
/,
total
,
54
/,
,
,
D
+
s
K
0
/,
total
,
54
/,
,
,
D
+
s
K
0
/,
total
,
54
/,
,
,
D
+
s
K
0
/,
total
,
54
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0011
<
0
:
0011
<
0
:
0011
<
0
:
0011
90
100 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0019
90
101 ALBRECHT 93
E
ARG e+e
,
!
(4S)
100ALEXANDER 93
B
reports
<
10
:
3
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
101ALBRECHT 93
E
reports
<
2
:
5
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
K
0
/,
total
,
55
/,
,
,
D
+
s
K
0
/,
total
,
55
/,
,
,
D
+
s
K
0
/,
total
,
55
/,
,
,
D
+
s
K
0
/,
total
,
55
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0011
<
0
:
0011
<
0
:
0011
<
0
:
0011
90
102 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0023
90
103 ALBRECHT 93
E
ARG e+e
,
!
(4S)
102ALEXANDER 93
B
reports
<
10
:
9
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
103ALBRECHT 93
E
reports
<
3
:
1
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
HTTP://PDG.LBL.GOV
Page 19
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
D
+
s
K
(892)
0
/,
total
,
56
/,
,
,
D
+
s
K
(892)
0
/,
total
,
56
/,
,
,
D
+
s
K
(892)
0
/,
total
,
56
/,
,
,
D
+
s
K
(892)
0
/,
total
,
56
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0005
<
0
:
0005
<
0
:
0005
<
0
:
0005
90
104 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
104ALEXANDER 93
B
reports
<
4
:
4
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
,
,
D
+
s
K
(892)
0
/,
total
,
57
/,
,
,
D
+
s
K
(892)
0
/,
total
,
57
/,
,
,
D
+
s
K
(892)
0
/,
total
,
57
/,
,
,
D
+
s
K
(892)
0
/,
total
,
57
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0004
<
0
:
0004
<
0
:
0004
<
0
:
0004
90
105 ALEXANDER 93
B
CLE2 e+e
,
!
(4S)
105ALEXANDER 93
B
reports
<
4
:
3
10
,
4 for B(D+s
!
+) = 0
:
037. We rescale to
our best value B(D+s
!
+) = 0
:
036.
,
,
D
,
s
+
K
+
/,
total
,
58
/,
,
,
D
,
s
+
K
+
/,
total
,
58
/,
,
,
D
,
s
+
K
+
/,
total
,
58
/,
,
,
D
,
s
+
K
+
/,
total
,
58
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0008
<
0
:
0008
<
0
:
0008
<
0
:
0008
90
106 ALBRECHT 93
E
ARG e+e
,
!
(4S)
106ALBRECHT 93
E
reports
<
1
:
1
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
,
s
+
K
+
/,
total
,
59
/,
,
,
D
,
s
+
K
+
/,
total
,
59
/,
,
,
D
,
s
+
K
+
/,
total
,
59
/,
,
,
D
,
s
+
K
+
/,
total
,
59
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0012
<
0
:
0012
<
0
:
0012
<
0
:
0012
90
107 ALBRECHT 93
E
ARG e+e
,
!
(4S)
107ALBRECHT 93
E
reports
<
1
:
6
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
,
s
+
K
(892)
+
/,
total
,
60
/,
,
,
D
,
s
+
K
(892)
+
/,
total
,
60
/,
,
,
D
,
s
+
K
(892)
+
/,
total
,
60
/,
,
,
D
,
s
+
K
(892)
+
/,
total
,
60
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
006
<
0
:
006
<
0
:
006
<
0
:
006
90
108 ALBRECHT 93
E
ARG e+e
,
!
(4S)
108ALBRECHT 93
E
reports
<
8
:
6
10
,
3 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
D
,
s
+
K
(892)
+
/,
total
,
61
/,
,
,
D
,
s
+
K
(892)
+
/,
total
,
61
/,
,
,
D
,
s
+
K
(892)
+
/,
total
,
61
/,
,
,
D
,
s
+
K
(892)
+
/,
total
,
61
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
008
<
0
:
008
<
0
:
008
<
0
:
008
90
109 ALBRECHT 93
E
ARG e+e
,
!
(4S)
109ALBRECHT 93
E
reports
<
1
:
1
10
,
2 for B(D+s
!
+) = 0
:
027. We rescale to our
best value B(D+s
!
+) = 0
:
036.
,
,
J
=
(1
S
)
K
+
/,
total
,
62
/,
,
,
J
=
(1
S
)
K
+
/,
total
,
62
/,
,
,
J
=
(1
S
)
K
+
/,
total
,
62
/,
,
,
J
=
(1
S
)
K
+
/,
total
,
62
/,
V
ALUE
(units 10
,
4)
EVTS
DOCUMENT
ID
TECN
COMMENT
10
:
0
1
:
0 OUR AVERAGE
10
:
0
1
:
0 OUR AVERAGE
10
:
0
1
:
0 OUR AVERAGE
10
:
0
1
:
0 OUR AVERAGE
10
:
2
0
:
8
0
:
7
110 JESSOP
97 CLE2 e+e
,
!
(4S)
9
:
3
3
:
1
0
:
2
111 BORTOLETTO92 CLEO e+e
,
!
(4S)
8
:
1
3
:
5
0
:
1
6 112 ALBRECHT 90
J
ARG e+e
,
!
(4S)
HTTP://PDG.LBL.GOV
Page 20
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
We do not use the following data for averages, ts, limits, etc.
11
:
0
1
:
5
0
:
9
59 113 ALAM
94 CLE2 Repl. by JESSOP 97
22
10
2
BUSKULIC
92
G
ALEP e+e
,
!
Z
7
4
3 114 ALBRECHT 87
D
ARG e+e
,
!
(4S)
10
7
2
3 115 BEBEK
87 CLEO e+e
,
!
(4S)
9
5
3 116 ALAM
86 CLEO e+e
,
!
(4S)
110Assumes equal production of B+ and B0 at the (4S).
111BORTOLETTO 92 reports 8
2
2 for B(J
=
(1S)
!
e+e
,
) = 0
:
069
0
:
009. We
rescale to our best value B(J
=
(1S)
!
e+e
,
) = (5
:
93
0
:
10)
10
,
2. Our rst
error is their experiment's error and our second error is the systematic error from using
our best value. Assumes equal production of B+ and B0 at the (4S).
112ALBRECHT 90
J
reports 7
3
1 for B(J
=
(1S)
!
e+e
,
) = 0
:
069
0
:
009. We
rescale to our best value B(J
=
(1S)
!
e+e
,
) = (5
:
93
0
:
10)
10
,
2. Our rst
error is their experiment's error and our second error is the systematic error from using
our best value. Assumes equal production of B+ and B0 at the (4S).
113Assumes equal production of B+ and B0 at the (4S).
114ALBRECHT 87
D
assume B+B
,
/B0B0 ratio is 55/45. Superseded by ALBRECHT 90
J
.
115BEBEK 87 value has been updated in BERKELMAN 91 to use same assumptions as
noted for BORTOLETTO 92.
116ALAM 86 assumes B
/B0 ratio is 60/40.
,
,
J
=
(1
S
)
K
+
+
,
/,
total
,
63
/,
,
,
J
=
(1
S
)
K
+
+
,
/,
total
,
63
/,
,
,
J
=
(1
S
)
K
+
+
,
/,
total
,
63
/,
,
,
J
=
(1
S
)
K
+
+
,
/,
total
,
63
/,
V
ALUE
CL%
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0014
0
:
0006 OUR AVERAGE
0
:
0014
0
:
0006 OUR AVERAGE
0
:
0014
0
:
0006 OUR AVERAGE
0
:
0014
0
:
0006 OUR AVERAGE
0
:
00140
0
:
00082
0
:
00002
117 BORTOLETTO92 CLEO e+e
,
!
(4S)
0
:
00140
0
:
00091
0
:
00002
6 118 ALBRECHT 87
D
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0019
90
119 ALBRECHT 90
J
ARG e+e
,
!
(4S)
117BORTOLETTO 92 reports 0
:
0012
0
:
0006
0
:
0004 for B(J
=
(1S)
!
e+e
,
) =
0
:
069
0
:
009. We rescale to our best value B(J
=
(1S)
!
e+e
,
) = (5
:
93
0
:
10)
10
,
2. Our rst error is their experiment's error and our second error is the systematic
error from using our best value. Assumes equal production of B+ and B0 at the (4S).
118ALBRECHT 87
D
reports 0
:
0012
0
:
0008 for B(J
=
(1S)
!
e+e
,
) = 0
:
069
0
:
009.
We rescale to our best value B(J
=
(1S)
!
e+e
,
) = (5
:
93
0
:
10)
10
,
2. Our rst
error is their experiment's error and our second error is the systematic error from using
our best value. They actually report 0
:
0011
0
:
0007 assuming B+B
,
/B0 B0 ratio is
55/45. We rescale to 50/50. Analysis explicitly removes B+
!
(2S)K+.
119ALBRECHT 90
J
reports
<
0
:
0016 for B(J
=
(1S)
!
e+e
,
) = 0
:
069. We rescale to
our best value B(J
=
(1S)
!
e+e
,
) = 0
:
0593. Assumes equal production of B+ and
B0 at the (4S).
HTTP://PDG.LBL.GOV
Page 21
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
J
=
(1
S
)
K
(892)
+
/,
total
,
64
/,
,
,
J
=
(1
S
)
K
(892)
+
/,
total
,
64
/,
,
,
J
=
(1
S
)
K
(892)
+
/,
total
,
64
/,
,
,
J
=
(1
S
)
K
(892)
+
/,
total
,
64
/,
For polarization information see the Listings at the end of the \B0 Branching Ratios"
section.
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
00148
0
:
00027 OUR AVERAGE
0
:
00148
0
:
00027 OUR AVERAGE
0
:
00148
0
:
00027 OUR AVERAGE
0
:
00148
0
:
00027 OUR AVERAGE
0
:
00141
0
:
00023
0
:
00024
120 JESSOP
97 CLE2 e+e
,
!
(4S)
0
:
00158
0
:
00047
0
:
00027
121 ABE
96
H
CDF pp at 1
:
8 TeV
0
:
00151
0
:
00109
0
:
00002
122 BORTOLETTO92 CLEO e+e
,
!
(4S)
0
:
00186
0
:
00130
0
:
00003
2 123 ALBRECHT 90
J
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
00178
0
:
00051
0
:
00023 13 124 ALAM
94 CLE2 Sup. by JESSOP 97
120Assumes equal production of B+ and B0 at the (4S).
121ABE 96
H
assumes that B(B+
!
J
=
K+) = (1
:
02
0
:
14)
10
,
3.
122BORTOLETTO 92 reports 0
:
0013
0
:
0009
0
:
0003 for B(J
=
(1S)
!
e+e
,
) =
0
:
069
0
:
009. We rescale to our best value B(J
=
(1S)
!
e+e
,
) = (5
:
93
0
:
10)
10
,
2. Our rst error is their experiment's error and our second error is the systematic
error from using our best value. Assumes equal production of B+ and B0 at the (4S).
123ALBRECHT 90
J
reports 0
:
0016
0
:
0011
0
:
0003 for B(J
=
(1S)
!
e+e
,
) = 0
:
069
0
:
009. We rescale to our best value B(J
=
(1S)
!
e+e
,
) = (5
:
93
0
:
10)
10
,
2.
Our rst error is their experiment's error and our second error is the systematic error
from using our best value. Assumes equal production of B+ and B0 at the (4S).
124Assumes equal production of B+ and B0 at the (4S).
,
,
J
=
(1
S
)
K
(892)
+
/,
,
J
=
(1
S
)
K
+
,
64
/,
62
,
,
J
=
(1
S
)
K
(892)
+
/,
,
J
=
(1
S
)
K
+
,
64
/,
62
,
,
J
=
(1
S
)
K
(892)
+
/,
,
J
=
(1
S
)
K
+
,
64
/,
62
,
,
J
=
(1
S
)
K
(892)
+
/,
,
J
=
(1
S
)
K
+
,
64
/,
62
V
ALUE
DOCUMENT
ID
TECN
COMMENT
1
:
52
0
:
24 OUR AVERAGE
1
:
52
0
:
24 OUR AVERAGE
1
:
52
0
:
24 OUR AVERAGE
1
:
52
0
:
24 OUR AVERAGE
1
:
45
0
:
20
0
:
17
125 JESSOP
97 CLE2 e+e
,
!
(4S)
1
:
92
0
:
60
0
:
17
ABE
96
Q
CDF pp
125JESSOP 97 assumes equal production of B+ and B0 at the (4S). The measurement
is actually measured as an average over kaon charged and neutral states.
,
,
J
=
(1
S
)
+
/,
,
J
=
(1
S
)
K
+
,
65
/,
62
,
,
J
=
(1
S
)
+
/,
,
J
=
(1
S
)
K
+
,
65
/,
62
,
,
J
=
(1
S
)
+
/,
,
J
=
(1
S
)
K
+
,
65
/,
62
,
,
J
=
(1
S
)
+
/,
,
J
=
(1
S
)
K
+
,
65
/,
62
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
051
0
:
014 OUR AVERAGE
0
:
051
0
:
014 OUR AVERAGE
0
:
051
0
:
014 OUR AVERAGE
0
:
051
0
:
014 OUR AVERAGE
0
:
05 +0
:
019
,
0
:
017
0
:
001
ABE
96
R
CDF pp 1
:
8 TeV
0
:
052
0
:
024
BISHAI
96 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
0
:
043
0
:
023
5 126 ALEXANDER 95 CLE2 Sup. by BISHAI 96
126Assumes equal production of B+B
,
and B0 B0 on (4S).
,
,
J
=
(1
S
)
+
/,
total
,
66
/,
,
,
J
=
(1
S
)
+
/,
total
,
66
/,
,
,
J
=
(1
S
)
+
/,
total
,
66
/,
,
,
J
=
(1
S
)
+
/,
total
,
66
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
7
:
7
10
,
4
<
7
:
7
10
,
4
<
7
:
7
10
,
4
<
7
:
7
10
,
4
90
BISHAI
96 CLE2 e+e
,
!
(4S)
,
,
J
=
(1
S
)
a
1
(1260)
+
/,
total
,
67
/,
,
,
J
=
(1
S
)
a
1
(1260)
+
/,
total
,
67
/,
,
,
J
=
(1
S
)
a
1
(1260)
+
/,
total
,
67
/,
,
,
J
=
(1
S
)
a
1
(1260)
+
/,
total
,
67
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
2
10
,
3
<
1
:
2
10
,
3
<
1
:
2
10
,
3
<
1
:
2
10
,
3
90
BISHAI
96 CLE2 e+e
,
!
(4S)
HTTP://PDG.LBL.GOV
Page 22
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
(2
S
)
K
+
/,
total
,
68
/,
,
,
(2
S
)
K
+
/,
total
,
68
/,
,
,
(2
S
)
K
+
/,
total
,
68
/,
,
,
(2
S
)
K
+
/,
total
,
68
/,
V
ALUE
(units 10
,
4)
CL%
EVTS
DOCUMENT
ID
TECN
COMMENT
5
:
8
1
:
0 OUR AVERAGE
5
:
8
1
:
0 OUR AVERAGE
5
:
8
1
:
0 OUR AVERAGE
5
:
8
1
:
0 OUR AVERAGE
5
:
5
1
:
0
0
:
6
127 ABE
98
O
CDF pp 1
:
8 TeV
6
:
1
2
:
3
0
:
9
7 128 ALAM
94 CLE2 e+e
,
!
(4S)
18
8
4
5 128 ALBRECHT 90
J
ARG e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
5
90
128 BORTOLETTO92 CLEO e+e
,
!
(4S)
22
17
3 129 ALBRECHT 87
D
ARG e+e
,
!
(4S)
127ABE 98
O
reports [B(B+
!
(2S)K+)]/[B(B+
!
J
=
(1S)K+)] =0
:
558
0
:
082
0
:
056. We multiply by our best value B(B+
!
J
=
(1S)K+)=(9
:
9
1
:
0)
10
,
4.
Our rst error is their experiment's error and our second error is the systematic error
from using our best value.
128Assumes equal production of B+ and B0 at the (4S).
129ALBRECHT 87
D
assume B+B
,
/B0B0 ratio is 55/45. Superseded by ALBRECHT 90
J
.
,
,
(2
S
)
K
(892)
+
/,
total
,
69
/,
,
,
(2
S
)
K
(892)
+
/,
total
,
69
/,
,
,
(2
S
)
K
(892)
+
/,
total
,
69
/,
,
,
(2
S
)
K
(892)
+
/,
total
,
69
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0030
<
0
:
0030
<
0
:
0030
<
0
:
0030
90
130 ALAM
94 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
0
:
0035
90
130 BORTOLETTO92 CLEO e+e
,
!
(4S)
<
0
:
0049
90
130 ALBRECHT 90
J
ARG e+e
,
!
(4S)
130Assumes equal production of B+ and B0 at the (4S).
,
,
(2
S
)
K
+
+
,
/,
total
,
70
/,
,
,
(2
S
)
K
+
+
,
/,
total
,
70
/,
,
,
(2
S
)
K
+
+
,
/,
total
,
70
/,
,
,
(2
S
)
K
+
+
,
/,
total
,
70
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0019
0
:
0011
0
:
0004
0
:
0019
0
:
0011
0
:
0004
0
:
0019
0
:
0011
0
:
0004
0
:
0019
0
:
0011
0
:
0004
3 131 ALBRECHT 90
J
ARG e+e
,
!
(4S)
131Assumes equal production of B+ and B0 at the (4S).
,
,
c1
(1
P
)
K
+
/,
total
,
71
/,
,
,
c1
(1
P
)
K
+
/,
total
,
71
/,
,
,
c1
(1
P
)
K
+
/,
total
,
71
/,
,
,
c1
(1
P
)
K
+
/,
total
,
71
/,
V
ALUE
EVTS
DOCUMENT
ID
TECN
COMMENT
0
:
0010
0
:
0004 OUR AVERAGE
0
:
0010
0
:
0004 OUR AVERAGE
0
:
0010
0
:
0004 OUR AVERAGE
0
:
0010
0
:
0004 OUR AVERAGE
0
:
00097
0
:
00040
0
:
00009
6 132 ALAM
94 CLE2 e+e
,
!
(4S)
0
:
0019
0
:
0013
0
:
0006
133 ALBRECHT 92
E
ARG e+e
,
!
(4S)
132Assumes equal production of B+ and B0 at the (4S).
133ALBRECHT 92
E
assumes no
c2(1P) production and B((4S)
!
B+B
,
) = 50%.
,
,
c1
(1
P
)
K
(892)
+
/,
total
,
72
/,
,
,
c1
(1
P
)
K
(892)
+
/,
total
,
72
/,
,
,
c1
(1
P
)
K
(892)
+
/,
total
,
72
/,
,
,
c1
(1
P
)
K
(892)
+
/,
total
,
72
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0021
<
0
:
0021
<
0
:
0021
<
0
:
0021
90
134 ALAM
94 CLE2 e+e
,
!
(4S)
134Assumes equal production of B+ and B0 at the (4S).
HTTP://PDG.LBL.GOV
Page 23
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
0
+
/,
total
,
73
/,
,
,
K
0
+
/,
total
,
73
/,
,
,
K
0
+
/,
total
,
73
/,
,
,
K
0
+
/,
total
,
73
/,
V
ALUE
(units 10
,
5)
CL%
DOCUMENT
ID
TECN
COMMENT
2
:
3+1
:
1
,
1
:
0
0
:
36
2
:
3+1
:
1
,
1
:
0
0
:
36
2
:
3+1
:
1
,
1
:
0
0
:
36
2
:
3+1
:
1
,
1
:
0
0
:
36
GODANG
98 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
4
:
8
90
ASNER
96 CLE2 Repl. by GODANG 98
<
19
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
<
10
90
135 AVERY
89
B
CLEO e+e
,
!
(4S)
<
68
90
AVERY
87 CLEO e+e
,
!
(4S)
135AVERY 89
B
reports
<
9
10
,
5 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
,
,
K
+
0
/,
total
,
74
/,
,
,
K
+
0
/,
total
,
74
/,
,
,
K
+
0
/,
total
,
74
/,
,
,
K
+
0
/,
total
,
74
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
6
10
,
5
<
1
:
6
10
,
5
<
1
:
6
10
,
5
<
1
:
6
10
,
5
90
GODANG
98 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
1
:
4
10
,
5
90
ASNER
96 CLE2 Repl. by GODANG 98
,
,
0
K
+
/,
total
,
75
/,
,
,
0
K
+
/,
total
,
75
/,
,
,
0
K
+
/,
total
,
75
/,
,
,
0
K
+
/,
total
,
75
/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
(6
:
5+1
:
5
,
1
:
4
0
:
9)
10
,
5
(6
:
5+1
:
5
,
1
:
4
0
:
9)
10
,
5
(6
:
5+1
:
5
,
1
:
4
0
:
9)
10
,
5
(6
:
5+1
:
5
,
1
:
4
0
:
9)
10
,
5
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
0
K
(892)
+
/,
total
,
76
/,
,
,
0
K
(892)
+
/,
total
,
76
/,
,
,
0
K
(892)
+
/,
total
,
76
/,
,
,
0
K
(892)
+
/,
total
,
76
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
3
10
,
4
<
1
:
3
10
,
4
<
1
:
3
10
,
4
<
1
:
3
10
,
4
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
K
+
/,
total
,
77
/,
,
,
K
+
/,
total
,
77
/,
,
,
K
+
/,
total
,
77
/,
,
,
K
+
/,
total
,
77
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
4
10
,
5
<
1
:
4
10
,
5
<
1
:
4
10
,
5
<
1
:
4
10
,
5
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
K
(892)
+
/,
total
,
78
/,
,
,
K
(892)
+
/,
total
,
78
/,
,
,
K
(892)
+
/,
total
,
78
/,
,
,
K
(892)
+
/,
total
,
78
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
0
10
,
5
<
3
:
0
10
,
5
<
3
:
0
10
,
5
<
3
:
0
10
,
5
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
!
K
+
/,
total
,
79
/,
,
,
!
K
+
/,
total
,
79
/,
,
,
!
K
+
/,
total
,
79
/,
,
,
!
K
+
/,
total
,
79
/,
V
ALUE
DOCUMENT
ID
TECN
(1
:
5+0
:
7
,
0
:
6
0
:
2)
10
,
5
(1
:
5+0
:
7
,
0
:
6
0
:
2)
10
,
5
(1
:
5+0
:
7
,
0
:
6
0
:
2)
10
,
5
(1
:
5+0
:
7
,
0
:
6
0
:
2)
10
,
5
136 BERGFELD 98 CLE2
136Assumes equal production of B+ and B0 at the (4S).
,
,
!
K
(892)
+
/,
total
,
80
/,
,
,
!
K
(892)
+
/,
total
,
80
/,
,
,
!
K
(892)
+
/,
total
,
80
/,
,
,
!
K
(892)
+
/,
total
,
80
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
<
8
:
7
10
,
5
<
8
:
7
10
,
5
<
8
:
7
10
,
5
<
8
:
7
10
,
5
90
137 BERGFELD 98 CLE2
137Assumes equal production of B+ and B0 at the (4S).
HTTP://PDG.LBL.GOV
Page 24
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
(892)
0
+
/,
total
,
81
/,
,
,
K
(892)
0
+
/,
total
,
81
/,
,
,
K
(892)
0
+
/,
total
,
81
/,
,
,
K
(892)
0
+
/,
total
,
81
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
4
:
1
10
,
5
<
4
:
1
10
,
5
<
4
:
1
10
,
5
<
4
:
1
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
3
:
9
10
,
4
90
138 ADAM
96
D
DLPH e+e
,
!
Z
<
4
:
8
10
,
4
90
139 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
1
:
7
10
,
4
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
<
1
:
5
10
,
4
90
140 AVERY
89
B
CLEO e+e
,
!
(4S)
<
2
:
6
10
,
4
90
AVERY
87 CLEO e+e
,
!
(4S)
138ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
139Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
140AVERY 89
B
reports
<
1
:
3
10
,
4 assuming the (4S) decays 43% to B0B0. We
rescale to 50%.
,
,
K
(892)
+
0
/,
total
,
82
/,
,
,
K
(892)
+
0
/,
total
,
82
/,
,
,
K
(892)
+
0
/,
total
,
82
/,
,
,
K
(892)
+
0
/,
total
,
82
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
9
:
9
10
,
5
<
9
:
9
10
,
5
<
9
:
9
10
,
5
<
9
:
9
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
,
,
K
+
,
+
nonresonant
/,
total
,
83
/,
,
,
K
+
,
+
nonresonant
/,
total
,
83
/,
,
,
K
+
,
+
nonresonant
/,
total
,
83
/,
,
,
K
+
,
+
nonresonant
/,
total
,
83
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
8
10
,
5
<
2
:
8
10
,
5
<
2
:
8
10
,
5
<
2
:
8
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
3
:
3
10
,
4
90
141 ADAM
96
D
DLPH e+e
,
!
Z
<
4
:
0
10
,
4
90
142 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
3
:
3
10
,
4
90
ALBRECHT 91
E
ARG e+e
,
!
(4S)
<
1
:
9
10
,
4
90
143 AVERY
89
B
CLEO e+e
,
!
(4S)
141ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
142Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
143AVERY 89
B
reports
<
1
:
7
10
,
4 assuming the (4S) decays 43% to B0B0. We
rescale to 50%.
,
,
K
,
+
+
nonresonant
/,
total
,
84
/,
,
,
K
,
+
+
nonresonant
/,
total
,
84
/,
,
,
K
,
+
+
nonresonant
/,
total
,
84
/,
,
,
K
,
+
+
nonresonant
/,
total
,
84
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
5
:
6
10
,
5
<
5
:
6
10
,
5
<
5
:
6
10
,
5
<
5
:
6
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
,
,
K
1
(1400)
0
+
/,
total
,
85
/,
,
,
K
1
(1400)
0
+
/,
total
,
85
/,
,
,
K
1
(1400)
0
+
/,
total
,
85
/,
,
,
K
1
(1400)
0
+
/,
total
,
85
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
6
10
,
3
<
2
:
6
10
,
3
<
2
:
6
10
,
3
<
2
:
6
10
,
3
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
,
,
K
2
(1430)
0
+
/,
total
,
86
/,
,
,
K
2
(1430)
0
+
/,
total
,
86
/,
,
,
K
2
(1430)
0
+
/,
total
,
86
/,
,
,
K
2
(1430)
0
+
/,
total
,
86
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
6
:
8
10
,
4
<
6
:
8
10
,
4
<
6
:
8
10
,
4
<
6
:
8
10
,
4
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
HTTP://PDG.LBL.GOV
Page 25
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
+
0
/,
total
,
87
/,
,
,
K
+
0
/,
total
,
87
/,
,
,
K
+
0
/,
total
,
87
/,
,
,
K
+
0
/,
total
,
87
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
9
10
,
5
<
1
:
9
10
,
5
<
1
:
9
10
,
5
<
1
:
9
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
1
:
2
10
,
4
90
144 ADAM
96
D
DLPH e+e
,
!
Z
<
1
:
9
10
,
4
90
145 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
1
:
8
10
,
4
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
<
8
10
,
5
90
146 AVERY
89
B
CLEO e+e
,
!
(4S)
<
2
:
6
10
,
4
90
AVERY
87 CLEO e+e
,
!
(4S)
144ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
145Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
146AVERY 89
B
reports
<
7
10
,
5 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
,
,
K
0
+
/,
total
,
88
/,
,
,
K
0
+
/,
total
,
88
/,
,
,
K
0
+
/,
total
,
88
/,
,
,
K
0
+
/,
total
,
88
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
4
:
8
10
,
5
<
4
:
8
10
,
5
<
4
:
8
10
,
5
<
4
:
8
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
,
,
K
(892)
+
+
,
/,
total
,
89
/,
,
,
K
(892)
+
+
,
/,
total
,
89
/,
,
,
K
(892)
+
+
,
/,
total
,
89
/,
,
,
K
(892)
+
+
,
/,
total
,
89
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
1
10
,
3
<
1
:
1
10
,
3
<
1
:
1
10
,
3
<
1
:
1
10
,
3
90
ALBRECHT 91
E
ARG e+e
,
!
(4S)
,
,
K
(892)
+
0
/,
total
,
90
/,
,
,
K
(892)
+
0
/,
total
,
90
/,
,
,
K
(892)
+
0
/,
total
,
90
/,
,
,
K
(892)
+
0
/,
total
,
90
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
9
:
0
10
,
4
<
9
:
0
10
,
4
<
9
:
0
10
,
4
<
9
:
0
10
,
4
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
,
,
K
1
(1400)
+
0
/,
total
,
91
/,
,
,
K
1
(1400)
+
0
/,
total
,
91
/,
,
,
K
1
(1400)
+
0
/,
total
,
91
/,
,
,
K
1
(1400)
+
0
/,
total
,
91
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
7
:
8
10
,
4
<
7
:
8
10
,
4
<
7
:
8
10
,
4
<
7
:
8
10
,
4
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
,
,
K
2
(1430)
+
0
/,
total
,
92
/,
,
,
K
2
(1430)
+
0
/,
total
,
92
/,
,
,
K
2
(1430)
+
0
/,
total
,
92
/,
,
,
K
2
(1430)
+
0
/,
total
,
92
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
5
10
,
3
<
1
:
5
10
,
3
<
1
:
5
10
,
3
<
1
:
5
10
,
3
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
,
,
K
+
K
0
/,
total
,
93
/,
,
,
K
+
K
0
/,
total
,
93
/,
,
,
K
+
K
0
/,
total
,
93
/,
,
,
K
+
K
0
/,
total
,
93
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
1
10
,
5
<
2
:
1
10
,
5
<
2
:
1
10
,
5
<
2
:
1
10
,
5
90
GODANG
98 CLE2 e+e
,
!
(4S)
,
,
K
+
K
,
+
nonresonant
/,
total
,
94
/,
,
,
K
+
K
,
+
nonresonant
/,
total
,
94
/,
,
,
K
+
K
,
+
nonresonant
/,
total
,
94
/,
,
,
K
+
K
,
+
nonresonant
/,
total
,
94
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
7
:
5
10
,
5
<
7
:
5
10
,
5
<
7
:
5
10
,
5
<
7
:
5
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
HTTP://PDG.LBL.GOV
Page 26
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
+
K
,
K
+
/,
total
,
95
/,
,
,
K
+
K
,
K
+
/,
total
,
95
/,
,
,
K
+
K
,
K
+
/,
total
,
95
/,
,
,
K
+
K
,
K
+
/,
total
,
95
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
0
10
,
4
<
2
:
0
10
,
4
<
2
:
0
10
,
4
<
2
:
0
10
,
4
90
147 ADAM
96
D
DLPH e+e
,
!
Z
We do not use the following data for averages, ts, limits, etc.
<
3
:
1
10
,
4
90
148 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
3
:
5
10
,
4
90
ALBRECHT 91
E
ARG e+e
,
!
(4S)
147ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
148Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
,
,
K
+
/,
total
,
96
/,
,
,
K
+
/,
total
,
96
/,
,
,
K
+
/,
total
,
96
/,
,
,
K
+
/,
total
,
96
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
5
10
,
5
<
0
:
5
10
,
5
<
0
:
5
10
,
5
<
0
:
5
10
,
5
90
149 BERGFELD 98 CLE2
We do not use the following data for averages, ts, limits, etc.
<
2
:
8
10
,
4
90
150 ADAM
96
D
DLPH e+e
,
!
Z
<
1
:
2
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
<
4
:
4
10
,
4
90
151 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
1
:
8
10
,
4
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
<
9
10
,
5
90
152 AVERY
89
B
CLEO e+e
,
!
(4S)
<
2
:
1
10
,
4
90
AVERY
87 CLEO e+e
,
!
(4S)
149Assumes equal production of B+ and B0 at the (4S).
150ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
151Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
152AVERY 89
B
reports
<
8
10
,
5 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
,
,
K
+
K
,
K
+
nonresonant
/,
total
,
97
/,
,
,
K
+
K
,
K
+
nonresonant
/,
total
,
97
/,
,
,
K
+
K
,
K
+
nonresonant
/,
total
,
97
/,
,
,
K
+
K
,
K
+
nonresonant
/,
total
,
97
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
8
10
,
5
<
3
:
8
10
,
5
<
3
:
8
10
,
5
<
3
:
8
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
,
,
K
(892)
+
K
+
K
,
/,
total
,
98
/,
,
,
K
(892)
+
K
+
K
,
/,
total
,
98
/,
,
,
K
(892)
+
K
+
K
,
/,
total
,
98
/,
,
,
K
(892)
+
K
+
K
,
/,
total
,
98
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
6
10
,
3
<
1
:
6
10
,
3
<
1
:
6
10
,
3
<
1
:
6
10
,
3
90
ALBRECHT 91
E
ARG e+e
,
!
(4S)
,
,
K
(892)
+
/,
total
,
99
/,
,
,
K
(892)
+
/,
total
,
99
/,
,
,
K
(892)
+
/,
total
,
99
/,
,
,
K
(892)
+
/,
total
,
99
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
4
:
1
10
,
5
<
4
:
1
10
,
5
<
4
:
1
10
,
5
<
4
:
1
10
,
5
90
153 BERGFELD 98 CLE2
We do not use the following data for averages, ts, limits, etc.
<
7
:
0
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
<
1
:
3
10
,
3
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
153Assumes equal production of B+ and B0 at the (4S).
,
,
K
1
(1400)
+
/,
total
,
100
/,
,
,
K
1
(1400)
+
/,
total
,
100
/,
,
,
K
1
(1400)
+
/,
total
,
100
/,
,
,
K
1
(1400)
+
/,
total
,
100
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
1
10
,
3
<
1
:
1
10
,
3
<
1
:
1
10
,
3
<
1
:
1
10
,
3
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
HTTP://PDG.LBL.GOV
Page 27
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
2
(1430)
+
/,
total
,
101
/,
,
,
K
2
(1430)
+
/,
total
,
101
/,
,
,
K
2
(1430)
+
/,
total
,
101
/,
,
,
K
2
(1430)
+
/,
total
,
101
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
4
10
,
3
<
3
:
4
10
,
3
<
3
:
4
10
,
3
<
3
:
4
10
,
3
90
ALBRECHT 91
B
ARG e+e
,
!
(4S)
,
,
K
+
f
0
(980)
/,
total
,
102
/,
,
,
K
+
f
0
(980)
/,
total
,
102
/,
,
,
K
+
f
0
(980)
/,
total
,
102
/,
,
,
K
+
f
0
(980)
/,
total
,
102
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
8
10
,
5
<
8
10
,
5
<
8
10
,
5
<
8
10
,
5
90
154 AVERY
89
B
CLEO e+e
,
!
(4S)
154AVERY 89
B
reports
<
7
10
,
5 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
,
,
K
(892)
+
/,
total
,
103
/,
,
,
K
(892)
+
/,
total
,
103
/,
,
,
K
(892)
+
/,
total
,
103
/,
,
,
K
(892)
+
/,
total
,
103
/,
V
ALUE
CL%
EVTS
DOCUMENT
ID
TECN
COMMENT
(5
:
7
3
:
1
1
:
1)
10
,
5
(5
:
7
3
:
1
1
:
1)
10
,
5
(5
:
7
3
:
1
1
:
1)
10
,
5
(5
:
7
3
:
1
1
:
1)
10
,
5
5 155 AMMAR
93 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
5
:
5
10
,
4 90
156 ALBRECHT 89
G
ARG e+e
,
!
(4S)
<
5
:
5
10
,
4 90
157 AVERY
89
B
CLEO e+e
,
!
(4S)
<
1
:
8
10
,
3 90
AVERY
87 CLEO e+e
,
!
(4S)
155AMMAR 93 observed 4
:
1
2
:
3 events above background.
156Assumes the (4S) decays 45% to B0B0.
157Assumes the (4S) decays 43% to B0B0.
,
,
K
1
(1270)
+
/,
total
,
104
/,
,
,
K
1
(1270)
+
/,
total
,
104
/,
,
,
K
1
(1270)
+
/,
total
,
104
/,
,
,
K
1
(1270)
+
/,
total
,
104
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0073
<
0
:
0073
<
0
:
0073
<
0
:
0073
90
158 ALBRECHT 89
G
ARG e+e
,
!
(4S)
158ALBRECHT 89
G
reports
<
0
:
0066 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
K
1
(1400)
+
/,
total
,
105
/,
,
,
K
1
(1400)
+
/,
total
,
105
/,
,
,
K
1
(1400)
+
/,
total
,
105
/,
,
,
K
1
(1400)
+
/,
total
,
105
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0022
<
0
:
0022
<
0
:
0022
<
0
:
0022
90
159 ALBRECHT 89
G
ARG e+e
,
!
(4S)
159ALBRECHT 89
G
reports
<
0
:
0020 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
K
2
(1430)
+
/,
total
,
106
/,
,
,
K
2
(1430)
+
/,
total
,
106
/,
,
,
K
2
(1430)
+
/,
total
,
106
/,
,
,
K
2
(1430)
+
/,
total
,
106
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0014
<
0
:
0014
<
0
:
0014
<
0
:
0014
90
160 ALBRECHT 89
G
ARG e+e
,
!
(4S)
160ALBRECHT 89
G
reports
<
0
:
0013 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
K
(1680)
+
/,
total
,
107
/,
,
,
K
(1680)
+
/,
total
,
107
/,
,
,
K
(1680)
+
/,
total
,
107
/,
,
,
K
(1680)
+
/,
total
,
107
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0019
<
0
:
0019
<
0
:
0019
<
0
:
0019
90
161 ALBRECHT 89
G
ARG e+e
,
!
(4S)
161ALBRECHT 89
G
reports
<
0
:
0017 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
HTTP://PDG.LBL.GOV
Page 28
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
3
(1780)
+
/,
total
,
108
/,
,
,
K
3
(1780)
+
/,
total
,
108
/,
,
,
K
3
(1780)
+
/,
total
,
108
/,
,
,
K
3
(1780)
+
/,
total
,
108
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0055
<
0
:
0055
<
0
:
0055
<
0
:
0055
90
162 ALBRECHT 89
G
ARG e+e
,
!
(4S)
162ALBRECHT 89
G
reports
<
0
:
005 assuming the (4S) decays 45% to B0B0. We rescale
to 50%.
,
,
K
4
(2045)
+
/,
total
,
109
/,
,
,
K
4
(2045)
+
/,
total
,
109
/,
,
,
K
4
(2045)
+
/,
total
,
109
/,
,
,
K
4
(2045)
+
/,
total
,
109
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0099
<
0
:
0099
<
0
:
0099
<
0
:
0099
90
163 ALBRECHT 89
G
ARG e+e
,
!
(4S)
163ALBRECHT 89
G
reports
<
0
:
0090 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
+
0
/,
total
,
110
/,
,
,
+
0
/,
total
,
110
/,
,
,
+
0
/,
total
,
110
/,
,
,
+
0
/,
total
,
110
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
0
10
,
5
<
2
:
0
10
,
5
<
2
:
0
10
,
5
<
2
:
0
10
,
5
90
GODANG
98 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
1
:
7
10
,
5
90
ASNER
96 CLE2 Repl. by GODANG 98
<
2
:
4
10
,
4
90
164 ALBRECHT 90
B
ARG e+e
,
!
(4S)
<
2
:
3
10
,
3
90
165 BEBEK
87 CLEO e+e
,
!
(4S)
164ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
165BEBEK 87 assume the (4S) decays 43% to B0B0.
,
,
+
+
,
/,
total
,
111
/,
,
,
+
+
,
/,
total
,
111
/,
,
,
+
+
,
/,
total
,
111
/,
,
,
+
+
,
/,
total
,
111
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
3
10
,
4
<
1
:
3
10
,
4
<
1
:
3
10
,
4
<
1
:
3
10
,
4
90
166 ADAM
96
D
DLPH e+e
,
!
Z
We do not use the following data for averages, ts, limits, etc.
<
2
:
2
10
,
4
90
167 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
4
:
5
10
,
4
90
168 ALBRECHT 90
B
ARG e+e
,
!
(4S)
<
1
:
9
10
,
4
90
169 BORTOLETTO89 CLEO e+e
,
!
(4S)
166ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
167Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
168ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
169BORTOLETTO 89 reports
<
1
:
7
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
,
,
0
+
/,
total
,
112
/,
,
,
0
+
/,
total
,
112
/,
,
,
0
+
/,
total
,
112
/,
,
,
0
+
/,
total
,
112
/,
V
ALUE
CL%
EVTS
DOCUMENT
ID
TECN
COMMENT
<
4
:
3
10
,
5
<
4
:
3
10
,
5
<
4
:
3
10
,
5
<
4
:
3
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
1
:
6
10
,
4
90
170 ADAM
96
D
DLPH e+e
,
!
Z
<
2
:
6
10
,
4
90
171 ABREU
95
N
DLPH Sup. by ADAM 96
D
<
1
:
5
10
,
4
90
172 ALBRECHT 90
B
ARG e+e
,
!
(4S)
<
1
:
7
10
,
4
90
173 BORTOLETTO89 CLEO e+e
,
!
(4S)
<
2
:
3
10
,
4
90
173 BEBEK
87 CLEO e+e
,
!
(4S)
<
6
10
,
4
90
0
GILES
84 CLEO Repl. by BEBEK 87
170ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
171Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
172ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
173Papers assume the (4S) decays 43% to B0B0. We rescale to 50%.
HTTP://PDG.LBL.GOV
Page 29
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
(892)
0
+
+ ,
,
0
+
/,
total
(,
81
+,
112
)/,
,
,
K
(892)
0
+
+ ,
,
0
+
/,
total
(,
81
+,
112
)/,
,
,
K
(892)
0
+
+,
,
0
+
/,
total
(,
81
+,
112
)/,
,
,
K
(892)
0
+
+,
,
0
+
/,
total
(,
81
+,
112
)/,
V
ALUE
DOCUMENT
ID
TECN
COMMENT
(17 +12
,
8
2)
10
,
5
(17 +12
,
8
2)
10
,
5
(17 +12
,
8
2)
10
,
5
(17 +12
,
8
2)
10
,
5
174 ADAM
96
D
DLPH e+e
,
!
Z
174ADAM 96
D
assumes fB
0
= fB
,
= 0
:
39 and fB
s
= 0
:
12.
,
,
+
f
0
(980)
/,
total
,
113
/,
,
,
+
f
0
(980)
/,
total
,
113
/,
,
,
+
f
0
(980)
/,
total
,
113
/,
,
,
+
f
0
(980)
/,
total
,
113
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
4
10
,
4
<
1
:
4
10
,
4
<
1
:
4
10
,
4
<
1
:
4
10
,
4
90
175 BORTOLETTO89 CLEO e+e
,
!
(4S)
175BORTOLETTO 89 reports
<
1
:
2
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
,
,
+
f
2
(1270)
/,
total
,
114
/,
,
,
+
f
2
(1270)
/,
total
,
114
/,
,
,
+
f
2
(1270)
/,
total
,
114
/,
,
,
+
f
2
(1270)
/,
total
,
114
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
4
10
,
4
<
2
:
4
10
,
4
<
2
:
4
10
,
4
<
2
:
4
10
,
4
90
176 BORTOLETTO89 CLEO e+e
,
!
(4S)
176BORTOLETTO 89 reports
<
2
:
1
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
,
,
+
,
+
nonresonant
/,
total
,
115
/,
,
,
+
,
+
nonresonant
/,
total
,
115
/,
,
,
+
,
+
nonresonant
/,
total
,
115
/,
,
,
+
,
+
nonresonant
/,
total
,
115
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
4
:
1
10
,
5
<
4
:
1
10
,
5
<
4
:
1
10
,
5
<
4
:
1
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
,
,
+
0
0
/,
total
,
116
/,
,
,
+
0
0
/,
total
,
116
/,
,
,
+
0
0
/,
total
,
116
/,
,
,
+
0
0
/,
total
,
116
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
8
:
9
10
,
4
<
8
:
9
10
,
4
<
8
:
9
10
,
4
<
8
:
9
10
,
4
90
177 ALBRECHT 90
B
ARG e+e
,
!
(4S)
177ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
+
0
/,
total
,
117
/,
,
,
+
0
/,
total
,
117
/,
,
,
+
0
/,
total
,
117
/,
,
,
+
0
/,
total
,
117
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
7
:
7
10
,
5
<
7
:
7
10
,
5
<
7
:
7
10
,
5
<
7
:
7
10
,
5
90
ASNER
96 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
5
:
5
10
,
4
90
178 ALBRECHT 90
B
ARG e+e
,
!
(4S)
178ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
+
,
+
0
/,
total
,
118
/,
,
,
+
,
+
0
/,
total
,
118
/,
,
,
+
,
+
0
/,
total
,
118
/,
,
,
+
,
+
0
/,
total
,
118
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
4
:
0
10
,
3
<
4
:
0
10
,
3
<
4
:
0
10
,
3
<
4
:
0
10
,
3
90
179 ALBRECHT 90
B
ARG e+e
,
!
(4S)
179ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
+
0
/,
total
,
119
/,
,
,
+
0
/,
total
,
119
/,
,
,
+
0
/,
total
,
119
/,
,
,
+
0
/,
total
,
119
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
0
10
,
3
<
1
:
0
10
,
3
<
1
:
0
10
,
3
<
1
:
0
10
,
3
90
180 ALBRECHT 90
B
ARG e+e
,
!
(4S)
180ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
a
1
(1260)
+
0
/,
total
,
120
/,
,
,
a
1
(1260)
+
0
/,
total
,
120
/,
,
,
a
1
(1260)
+
0
/,
total
,
120
/,
,
,
a
1
(1260)
+
0
/,
total
,
120
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
7
10
,
3
<
1
:
7
10
,
3
<
1
:
7
10
,
3
<
1
:
7
10
,
3
90
181 ALBRECHT 90
B
ARG e+e
,
!
(4S)
181ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
HTTP://PDG.LBL.GOV
Page 30
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
a
1
(1260)
0
+
/,
total
,
121
/,
,
,
a
1
(1260)
0
+
/,
total
,
121
/,
,
,
a
1
(1260)
0
+
/,
total
,
121
/,
,
,
a
1
(1260)
0
+
/,
total
,
121
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
9
:
0
10
,
4
<
9
:
0
10
,
4
<
9
:
0
10
,
4
<
9
:
0
10
,
4
90
182 ALBRECHT 90
B
ARG e+e
,
!
(4S)
182ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
!
+
/,
total
,
122
/,
,
,
!
+
/,
total
,
122
/,
,
,
!
+
/,
total
,
122
/,
,
,
!
+
/,
total
,
122
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
3
10
,
5
<
2
:
3
10
,
5
<
2
:
3
10
,
5
<
2
:
3
10
,
5
90
183 BERGFELD 98 CLE2
We do not use the following data for averages, ts, limits, etc.
<
4
:
0
10
,
4
90
184 ALBRECHT 90
B
ARG e+e
,
!
(4S)
183Assumes equal production of B+ and B0 at the (4S).
184ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
!
+
/,
total
,
123
/,
,
,
!
+
/,
total
,
123
/,
,
,
!
+
/,
total
,
123
/,
,
,
!
+
/,
total
,
123
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
<
6
:
1
10
,
5
<
6
:
1
10
,
5
<
6
:
1
10
,
5
<
6
:
1
10
,
5
90
185 BERGFELD 98 CLE2
185Assumes equal production of B+ and B0 at the (4S).
,
,
+
/,
total
,
124
/,
,
,
+
/,
total
,
124
/,
,
,
+
/,
total
,
124
/,
,
,
+
/,
total
,
124
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
5
10
,
5
<
1
:
5
10
,
5
<
1
:
5
10
,
5
<
1
:
5
10
,
5
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
7
:
0
10
,
4
90
186 ALBRECHT 90
B
ARG e+e
,
!
(4S)
186ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
0
+
/,
total
,
125
/,
,
,
0
+
/,
total
,
125
/,
,
,
0
+
/,
total
,
125
/,
,
,
0
+
/,
total
,
125
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
1
10
,
5
<
3
:
1
10
,
5
<
3
:
1
10
,
5
<
3
:
1
10
,
5
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
0
+
/,
total
,
126
/,
,
,
0
+
/,
total
,
126
/,
,
,
0
+
/,
total
,
126
/,
,
,
0
+
/,
total
,
126
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
4
:
7
10
,
5
<
4
:
7
10
,
5
<
4
:
7
10
,
5
<
4
:
7
10
,
5
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
+
/,
total
,
127
/,
,
,
+
/,
total
,
127
/,
,
,
+
/,
total
,
127
/,
,
,
+
/,
total
,
127
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
2
10
,
5
<
3
:
2
10
,
5
<
3
:
2
10
,
5
<
3
:
2
10
,
5
90
BEHRENS
98 CLE2 e+e
,
!
(4S)
,
,
+
/,
total
,
128
/,
,
,
+
/,
total
,
128
/,
,
,
+
/,
total
,
128
/,
,
,
+
/,
total
,
128
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
<
0
:
5
10
,
5
<
0
:
5
10
,
5
<
0
:
5
10
,
5
<
0
:
5
10
,
5
90
187 BERGFELD 98 CLE2
187Assumes equal production of B+ and B0 at the (4S).
,
,
+
/,
total
,
129
/,
,
,
+
/,
total
,
129
/,
,
,
+
/,
total
,
129
/,
,
,
+
/,
total
,
129
/,
V
ALUE
DOCUMENT
ID
TECN
<
1
:
6
10
,
5
<
1
:
6
10
,
5
<
1
:
6
10
,
5
<
1
:
6
10
,
5
188 BERGFELD 98 CLE2
188Assumes equal production of B+ and B0 at the (4S).
HTTP://PDG.LBL.GOV
Page 31
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
+
+
+
,
,
/,
total
,
130
/,
,
,
+
+
+
,
,
/,
total
,
130
/,
,
,
+
+
+
,
,
/,
total
,
130
/,
,
,
+
+
+
,
,
/,
total
,
130
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
8
:
6
10
,
4
<
8
:
6
10
,
4
<
8
:
6
10
,
4
<
8
:
6
10
,
4
90
189 ALBRECHT 90
B
ARG e+e
,
!
(4S)
189ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
0
a
1
(1260)
+
/,
total
,
131
/,
,
,
0
a
1
(1260)
+
/,
total
,
131
/,
,
,
0
a
1
(1260)
+
/,
total
,
131
/,
,
,
0
a
1
(1260)
+
/,
total
,
131
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
6
:
2
10
,
4
<
6
:
2
10
,
4
<
6
:
2
10
,
4
<
6
:
2
10
,
4
90
190 BORTOLETTO89 CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
6
:
0
10
,
4
90
191 ALBRECHT 90
B
ARG e+e
,
!
(4S)
<
3
:
2
10
,
3
90
190 BEBEK
87 CLEO e+e
,
!
(4S)
190BORTOLETTO 89 reports
<
5
:
4
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
191ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
0
a
2
(1320)
+
/,
total
,
132
/,
,
,
0
a
2
(1320)
+
/,
total
,
132
/,
,
,
0
a
2
(1320)
+
/,
total
,
132
/,
,
,
0
a
2
(1320)
+
/,
total
,
132
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
7
:
2
10
,
4
<
7
:
2
10
,
4
<
7
:
2
10
,
4
<
7
:
2
10
,
4
90
192 BORTOLETTO89 CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
2
:
6
10
,
3
90
193 BEBEK
87 CLEO e+e
,
!
(4S)
192BORTOLETTO 89 reports
<
6
:
3
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
193BEBEK 87reports
<
2
:
3
10
,
3 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
,
,
+
+
+
,
,
0
/,
total
,
133
/,
,
,
+
+
+
,
,
0
/,
total
,
133
/,
,
,
+
+
+
,
,
0
/,
total
,
133
/,
,
,
+
+
+
,
,
0
/,
total
,
133
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
6
:
3
10
,
3
<
6
:
3
10
,
3
<
6
:
3
10
,
3
<
6
:
3
10
,
3
90
194 ALBRECHT 90
B
ARG e+e
,
!
(4S)
194ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
a
1
(1260)
+
a
1
(1260)
0
/,
total
,
134
/,
,
,
a
1
(1260)
+
a
1
(1260)
0
/,
total
,
134
/,
,
,
a
1
(1260)
+
a
1
(1260)
0
/,
total
,
134
/,
,
,
a
1
(1260)
+
a
1
(1260)
0
/,
total
,
134
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
3
10
,
2
<
1
:
3
10
,
2
<
1
:
3
10
,
2
<
1
:
3
10
,
2
90
195 ALBRECHT 90
B
ARG e+e
,
!
(4S)
195ALBRECHT 90
B
limit assumes equal production of B0 B0 and B+B
,
at (4S).
,
,
h
+
0
/,
total
,
135
/,
,
,
h
+
0
/,
total
,
135
/,
,
,
h
+
0
/,
total
,
135
/,
,
,
h
+
0
/,
total
,
135
/,
h+ = K+ or
+
V
ALUE
DOCUMENT
ID
TECN
COMMENT
(1
:
6+0
:
6
,
0
:
5
0
:
36)
10
,
5
(1
:
6+0
:
6
,
0
:
5
0
:
36)
10
,
5
(1
:
6+0
:
6
,
0
:
5
0
:
36)
10
,
5
(1
:
6+0
:
6
,
0
:
5
0
:
36)
10
,
5
GODANG
98 CLE2 e+e
,
!
(4S)
,
,
!
h
+
/,
total
,
136
/,
,
,
!
h
+
/,
total
,
136
/,
,
,
!
h
+
/,
total
,
136
/,
,
,
!
h
+
/,
total
,
136
/,
h+ = K+ or
+
V
ALUE
DOCUMENT
ID
TECN
(2
:
5+0
:
8
,
0
:
7
0
:
3)
10
,
5
(2
:
5+0
:
8
,
0
:
7
0
:
3)
10
,
5
(2
:
5+0
:
8
,
0
:
7
0
:
3)
10
,
5
(2
:
5+0
:
8
,
0
:
7
0
:
3)
10
,
5
196 BERGFELD 98 CLE2
196Assumes equal production of B+ and B0 at the (4S).
HTTP://PDG.LBL.GOV
Page 32
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
p
p
+
/,
total
,
137
/,
,
,
p
p
+
/,
total
,
137
/,
,
,
p
p
+
/,
total
,
137
/,
,
,
p
p
+
/,
total
,
137
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
6
10
,
4
<
1
:
6
10
,
4
<
1
:
6
10
,
4
<
1
:
6
10
,
4 90 197 BEBEK
89 CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
5
:
0
10
,
4 90 198 ABREU
95
N
DLPH Sup. by ADAM 96
D
(5
:
7
1
:
5
2
:
1)
10
,
4
199 ALBRECHT 88
F
ARG e+e
,
!
(4S)
197BEBEK 89 reports
<
1
:
4
10
,
4 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
198Assumes a B0, B
,
production fraction of 0
:
39 and a Bs production fraction of 0
:
12.
199ALBRECHT 88
F
reports (5
:
2
1
:
4
1
:
9)
10
,
4 assuming the (4S) decays 45% to
B0B0. We rescale to 50%.
,
,
p
p
+
nonresonant
/,
total
,
138
/,
,
,
p
p
+
nonresonant
/,
total
,
138
/,
,
,
p
p
+
nonresonant
/,
total
,
138
/,
,
,
p
p
+
nonresonant
/,
total
,
138
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
5
:
3
10
,
5
<
5
:
3
10
,
5
<
5
:
3
10
,
5
<
5
:
3
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
,
,
p
p
+
+
,
/,
total
,
139
/,
,
,
p
p
+
+
,
/,
total
,
139
/,
,
,
p
p
+
+
,
/,
total
,
139
/,
,
,
p
p
+
+
,
/,
total
,
139
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
5
:
2
10
,
4
<
5
:
2
10
,
4
<
5
:
2
10
,
4
<
5
:
2
10
,
4
90
200 ALBRECHT 88
F
ARG e+e
,
!
(4S)
200ALBRECHT 88
F
reports
<
4
:
7
10
,
4 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
p
p
K
+
nonresonant
/,
total
,
140
/,
,
,
p
p
K
+
nonresonant
/,
total
,
140
/,
,
,
p
p
K
+
nonresonant
/,
total
,
140
/,
,
,
p
p
K
+
nonresonant
/,
total
,
140
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
8
:
9
10
,
5
<
8
:
9
10
,
5
<
8
:
9
10
,
5
<
8
:
9
10
,
5
90
BERGFELD 96
B
CLE2 e+e
,
!
(4S)
,
,
p
/,
total
,
141
/,
,
,
p
/,
total
,
141
/,
,
,
p
/,
total
,
141
/,
,
,
p
/,
total
,
141
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
6
10
,
5
<
6
10
,
5
<
6
10
,
5
<
6
10
,
5
90
201 AVERY
89
B
CLEO e+e
,
!
(4S)
We do not use the following data for averages, ts, limits, etc.
<
9
:
3
10
,
5
90
202 ALBRECHT 88
F
ARG e+e
,
!
(4S)
201AVERY 89
B
reports
<
5
10
,
5 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
202ALBRECHT 88
F
reports
<
8
:
5
10
,
5 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
p
+
,
/,
total
,
142
/,
,
,
p
+
,
/,
total
,
142
/,
,
,
p
+
,
/,
total
,
142
/,
,
,
p
+
,
/,
total
,
142
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
2
:
0
10
,
4
<
2
:
0
10
,
4
<
2
:
0
10
,
4
<
2
:
0
10
,
4
90
203 ALBRECHT 88
F
ARG e+e
,
!
(4S)
203ALBRECHT 88
F
reports
<
1
:
8
10
,
4 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
0
p
/,
total
,
143
/,
,
,
0
p
/,
total
,
143
/,
,
,
0
p
/,
total
,
143
/,
,
,
0
p
/,
total
,
143
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
8
10
,
4
<
3
:
8
10
,
4
<
3
:
8
10
,
4
<
3
:
8
10
,
4
90
204 BORTOLETTO89 CLEO e+e
,
!
(4S)
204BORTOLETTO 89 reports
<
3
:
3
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
HTTP://PDG.LBL.GOV
Page 33
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
++
p
/,
total
,
144
/,
,
,
++
p
/,
total
,
144
/,
,
,
++
p
/,
total
,
144
/,
,
,
++
p
/,
total
,
144
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
5
10
,
4
<
1
:
5
10
,
4
<
1
:
5
10
,
4
<
1
:
5
10
,
4
90
205 BORTOLETTO89 CLEO e+e
,
!
(4S)
205BORTOLETTO 89 reports
<
1
:
3
10
,
4 assuming the (4S) decays 43% to B0B0.
We rescale to 50%.
,
,
,
c
p
+
/,
total
,
145
/,
,
,
,
c
p
+
/,
total
,
145
/,
,
,
,
c
p
+
/,
total
,
145
/,
,
,
,
c
p
+
/,
total
,
145
/,
V
ALUE
(units 10
,
4)
DOCUMENT
ID
TECN
COMMENT
6
:
2+2
:
3
,
2
:
0
1
:
6
6
:
2+2
:
3
,
2
:
0
1
:
6
6
:
2+2
:
3
,
2
:
0
1
:
6
6
:
2+2
:
3
,
2
:
0
1
:
6
206 FU
97 CLE2 e+e
,
!
(4S)
206FU 97 uses PDG 96 values of c branching fraction.
,
,
,
c
p
+
0
/,
total
,
146
/,
,
,
,
c
p
+
0
/,
total
,
146
/,
,
,
,
c
p
+
0
/,
total
,
146
/,
,
,
,
c
p
+
0
/,
total
,
146
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
3
:
12
10
,
3
<
3
:
12
10
,
3
<
3
:
12
10
,
3
<
3
:
12
10
,
3
90
207 FU
97 CLE2 e+e
,
!
(4S)
207FU 97 uses PDG 96 values of c branching ratio.
,
,
,
c
p
+
+
,
/,
total
,
147
/,
,
,
,
c
p
+
+
,
/,
total
,
147
/,
,
,
,
c
p
+
+
,
/,
total
,
147
/,
,
,
,
c
p
+
+
,
/,
total
,
147
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
46
10
,
3
<
1
:
46
10
,
3
<
1
:
46
10
,
3
<
1
:
46
10
,
3
90
208 FU
97 CLE2 e+e
,
!
(4S)
208FU 97 uses PDG 96 values of c branching ratio.
,
,
,
c
p
+
+
,
0
/,
total
,
148
/,
,
,
,
c
p
+
+
,
0
/,
total
,
148
/,
,
,
,
c
p
+
+
,
0
/,
total
,
148
/,
,
,
,
c
p
+
+
,
0
/,
total
,
148
/,
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
34
10
,
2
<
1
:
34
10
,
2
<
1
:
34
10
,
2
<
1
:
34
10
,
2
90
209 FU
97 CLE2 e+e
,
!
(4S)
209FU 97 uses PDG 96 values of c branching ratio.
,
,
+
e
+
e
,
/,
total
,
149
/,
,
,
+
e
+
e
,
/,
total
,
149
/,
,
,
+
e
+
e
,
/,
total
,
149
/,
,
,
+
e
+
e
,
/,
total
,
149
/,
Test for B = 1 weak neutral current. Allowed by higher-order electroweak interac-
tions.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0039
<
0
:
0039
<
0
:
0039
<
0
:
0039
90
210 WEIR
90
B
MRK2 e+e
,
29 GeV
210WEIR 90
B
assumes B+ production cross section from LUND.
,
,
+
+
,
/,
total
,
150
/,
,
,
+
+
,
/,
total
,
150
/,
,
,
+
+
,
/,
total
,
150
/,
,
,
+
+
,
/,
total
,
150
/,
Test for B = 1 weak neutral current. Allowed by higher-order electroweak interac-
tions.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0091
<
0
:
0091
<
0
:
0091
<
0
:
0091
90
211 WEIR
90
B
MRK2 e+e
,
29 GeV
211WEIR 90
B
assumes B+ production cross section from LUND.
,
,
K
+
e
+
e
,
/,
total
,
151
/,
,
,
K
+
e
+
e
,
/,
total
,
151
/,
,
,
K
+
e
+
e
,
/,
total
,
151
/,
,
,
K
+
e
+
e
,
/,
total
,
151
/,
Test for B = 1 weak neutral current. Allowed by higher-order electroweak interac-
tions.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
6
10
,
5
<
6
10
,
5
<
6
10
,
5
<
6
10
,
5
90
212 AVERY
89
B
CLEO e+e
,
!
(4S)
HTTP://PDG.LBL.GOV
Page 34
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
We do not use the following data for averages, ts, limits, etc.
<
9
:
9
10
,
5
90
213 ALBRECHT 91
E
ARG e+e
,
!
(4S)
<
6
:
8
10
,
3
90
214 WEIR
90
B
MRK2 e+e
,
29 GeV
<
2
:
5
10
,
4
90
215 AVERY
87 CLEO e+e
,
!
(4S)
212AVERY 89
B
reports
<
5
10
,
5 assuming the (4S) decays 43% to B0B0. We rescale
to 50%.
213ALBRECHT 91
E
reports
<
9
:
0
10
,
5 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
214WEIR 90
B
assumes B+ production cross section from LUND.
215AVERY 87 reports
<
2
:
1
10
,
4 assuming the (4S) decays 40% to B0B0. We rescale
to 50%.
,
,
K
+
+
,
/,
total
,
152
/,
,
,
K
+
+
,
/,
total
,
152
/,
,
,
K
+
+
,
/,
total
,
152
/,
,
,
K
+
+
,
/,
total
,
152
/,
Test for B = 1 weak neutral current. Allowed by higher-order electroweak interac-
tions.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
0
10
,
5
<
1
:
0
10
,
5
<
1
:
0
10
,
5
<
1
:
0
10
,
5
90
216 ABE
96
L
CDF pp at 1
:
8 TeV
We do not use the following data for averages, ts, limits, etc.
<
2
:
4
10
,
4
90
217 ALBRECHT 91
E
ARG e+e
,
!
(4S)
<
6
:
4
10
,
3
90
218 WEIR
90
B
MRK2 e+e
,
29 GeV
<
1
:
7
10
,
4
90
219 AVERY
89
B
CLEO e+e
,
!
(4S)
<
3
:
8
10
,
4
90
220 AVERY
87 CLEO e+e
,
!
(4S)
216ABE 96
L
measured relative to B0
!
J
=
(1S)K+ using PDG 94 branching ratios.
217ALBRECHT 91
E
reports
<
2
:
2
10
,
4 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
218WEIR 90
B
assumes B+ production cross section from LUND.
219AVERY 89
B
reports
<
1
:
5
10
,
4 assuming the (4S) decays 43% to B0B0. We
rescale to 50%.
220AVERY 87 reports
<
3
:
2
10
,
4 assuming the (4S) decays 40% to B0B0. We rescale
to 50%.
,
,
K
(892)
+
e
+
e
,
/,
total
,
153
/,
,
,
K
(892)
+
e
+
e
,
/,
total
,
153
/,
,
,
K
(892)
+
e
+
e
,
/,
total
,
153
/,
,
,
K
(892)
+
e
+
e
,
/,
total
,
153
/,
Test for B = 1 weak neutral current. Allowed by higher-order electroweak interac-
tions.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
6
:
9
10
,
4
<
6
:
9
10
,
4
<
6
:
9
10
,
4
<
6
:
9
10
,
4
90
221 ALBRECHT 91
E
ARG e+e
,
!
(4S)
221ALBRECHT 91
E
reports
<
6
:
3
10
,
4 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
K
(892)
+
+
,
/,
total
,
154
/,
,
,
K
(892)
+
+
,
/,
total
,
154
/,
,
,
K
(892)
+
+
,
/,
total
,
154
/,
,
,
K
(892)
+
+
,
/,
total
,
154
/,
Test for B = 1 weak neutral current. Allowed by higher-order electroweak interac-
tions.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
1
:
2
10
,
3
<
1
:
2
10
,
3
<
1
:
2
10
,
3
<
1
:
2
10
,
3
90
222 ALBRECHT 91
E
ARG e+e
,
!
(4S)
222ALBRECHT 91
E
reports
<
1
:
1
10
,
3 assuming the (4S) decays 45% to B0B0. We
rescale to 50%.
,
,
+
e
+
,
/,
total
,
155
/,
,
,
+
e
+
,
/,
total
,
155
/,
,
,
+
e
+
,
/,
total
,
155
/,
,
,
+
e
+
,
/,
total
,
155
/,
Test of lepton family number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0064
<
0
:
0064
<
0
:
0064
<
0
:
0064
90
223 WEIR
90
B
MRK2 e+e
,
29 GeV
223WEIR 90
B
assumes B+ production cross section from LUND.
HTTP://PDG.LBL.GOV
Page 35
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
+
e
,
+
/,
total
,
156
/,
,
,
+
e
,
+
/,
total
,
156
/,
,
,
+
e
,
+
/,
total
,
156
/,
,
,
+
e
,
+
/,
total
,
156
/,
Test of lepton family number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0064
<
0
:
0064
<
0
:
0064
<
0
:
0064
90
224 WEIR
90
B
MRK2 e+e
,
29 GeV
224WEIR 90
B
assumes B+ production cross section from LUND.
,
,
K
+
e
+
,
/,
total
,
157
/,
,
,
K
+
e
+
,
/,
total
,
157
/,
,
,
K
+
e
+
,
/,
total
,
157
/,
,
,
K
+
e
+
,
/,
total
,
157
/,
Test of lepton family number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0064
<
0
:
0064
<
0
:
0064
<
0
:
0064
90
225 WEIR
90
B
MRK2 e+e
,
29 GeV
225WEIR 90
B
assumes B+ production cross section from LUND.
,
,
K
+
e
,
+
/,
total
,
158
/,
,
,
K
+
e
,
+
/,
total
,
158
/,
,
,
K
+
e
,
+
/,
total
,
158
/,
,
,
K
+
e
,
+
/,
total
,
158
/,
Test of lepton family number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0064
<
0
:
0064
<
0
:
0064
<
0
:
0064
90
226 WEIR
90
B
MRK2 e+e
,
29 GeV
226WEIR 90
B
assumes B+ production cross section from LUND.
,
,
,
e
+
e
+
/,
total
,
159
/,
,
,
,
e
+
e
+
/,
total
,
159
/,
,
,
,
e
+
e
+
/,
total
,
159
/,
,
,
,
e
+
e
+
/,
total
,
159
/,
Test of total lepton number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0039
<
0
:
0039
<
0
:
0039
<
0
:
0039
90
227 WEIR
90
B
MRK2 e+e
,
29 GeV
227WEIR 90
B
assumes B+ production cross section from LUND.
,
,
,
+
+
/,
total
,
160
/,
,
,
,
+
+
/,
total
,
160
/,
,
,
,
+
+
/,
total
,
160
/,
,
,
,
+
+
/,
total
,
160
/,
Test of total lepton number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0091
<
0
:
0091
<
0
:
0091
<
0
:
0091
90
228 WEIR
90
B
MRK2 e+e
,
29 GeV
228WEIR 90
B
assumes B+ production cross section from LUND.
,
,
,
e
+
+
/,
total
,
161
/,
,
,
,
e
+
+
/,
total
,
161
/,
,
,
,
e
+
+
/,
total
,
161
/,
,
,
,
e
+
+
/,
total
,
161
/,
Test of total lepton number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0064
<
0
:
0064
<
0
:
0064
<
0
:
0064
90
229 WEIR
90
B
MRK2 e+e
,
29 GeV
229WEIR 90
B
assumes B+ production cross section from LUND.
,
,
K
,
e
+
e
+
/,
total
,
162
/,
,
,
K
,
e
+
e
+
/,
total
,
162
/,
,
,
K
,
e
+
e
+
/,
total
,
162
/,
,
,
K
,
e
+
e
+
/,
total
,
162
/,
Test of total lepton number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0039
<
0
:
0039
<
0
:
0039
<
0
:
0039
90
230 WEIR
90
B
MRK2 e+e
,
29 GeV
230WEIR 90
B
assumes B+ production cross section from LUND.
,
,
K
,
+
+
/,
total
,
163
/,
,
,
K
,
+
+
/,
total
,
163
/,
,
,
K
,
+
+
/,
total
,
163
/,
,
,
K
,
+
+
/,
total
,
163
/,
Test of total lepton number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0091
<
0
:
0091
<
0
:
0091
<
0
:
0091
90
231 WEIR
90
B
MRK2 e+e
,
29 GeV
231WEIR 90
B
assumes B+ production cross section from LUND.
HTTP://PDG.LBL.GOV
Page 36
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
,
,
K
,
e
+
+
/,
total
,
164
/,
,
,
K
,
e
+
+
/,
total
,
164
/,
,
,
K
,
e
+
+
/,
total
,
164
/,
,
,
K
,
e
+
+
/,
total
,
164
/,
Test of total lepton number conservation.
V
ALUE
CL%
DOCUMENT
ID
TECN
COMMENT
<
0
:
0064
<
0
:
0064
<
0
:
0064
<
0
:
0064
90
232 WEIR
90
B
MRK2 e+e
,
29 GeV
232WEIR 90
B
assumes B+ production cross section from LUND.
B
REFERENCES
B
REFERENCES
B
REFERENCES
B
REFERENCES
ABBIENDI
99J hep-ex/9901017
G. Abbiendi+
(OPAL Collab.)
CERN-EP/98-195, EPJ C (to be publ.)
ABE
98B PR D57 5382
F. Abe+
(CDF Collab.)
ABE
98O PR D58 072001
F. Abe+
(CDF Collab.)
ABE
98Q PR D58 092002
F. Abe+
(CDF Collab.)
ACCIARRI
98S PL B438 417
M. Acciarri+
(L3 Collab.)
ANASTASSOV 98 PRL 80 4127
A. Anastassov+
(CLEO Collab.)
ATHANAS
98 PRL 80 5493
M. Athanas+
(CLEO Collab.)
BARATE
98Q EPJ C4 387
R. Barate+
(ALEPH Collab.)
BEHRENS
98 PRL 80 3710
B.H. Behrens+
(CLEO Collab.)
BERGFELD
98 PRL 81 272
T. Bergfeld+
(CLEO Collab.)
BRANDENB... 98 PRL 80 2762
G. Brandenbrug+
(CLEO Collab.)
GODANG
98 PRL 80 3456
R. Godang+
(CLEO Collab.)
ABE
97J PRL 79 590
+Abe, Akagi, Allen+
(SLD Collab.)
ACCIARRI
97F PL B396 327
M. Acciarri+
(L3 Collab.)
ARTUSO
97 PL B399 321
M. Artuso+
(CLEO Collab.)
ATHANAS
97 PRL 79 2208
M. Athanas+
(CLEO Collab.)
BROWDER
97 PR D56 11
T. Browder+
(CLEO Collab.)
FU
97 PRL 79 3125
X. Fu+
(CLEO Collab.)
JESSOP
97 PRL 79 4533
C.P. Jessop+
(CLEO Collab.)
ABE
96B PR D53 3496
+Albrow, Amendolia, Amidei+
(CDF Collab.)
ABE
96C PRL 76 4462
+Akimoto, Akopian, Albrow+
(CDF Collab.)
ABE
96H PRL 76 2015
+Albrow, Amendolia, Amidei+
(CDF Collab.)
ABE
96L PRL 76 4675
+Akimoto, Akopian, Albrow+
(CDF Collab.)
ABE
96Q PR D54 6596
+Akimoto, Akopian, Albrow+
(CDF Collab.)
ABE
96R PRL 77 5176
+Akimoto, Akopian, Albrow+
(CDF Collab.)
ADAM
96D ZPHY C72 207
W. Adam+
(DELPHI Collab.)
ASNER
96 PR D53 1039
+Athanas, Bliss, Brower+
(CLEO Collab.)
BARISH
96B PRL 76 1570
+Chadha, Chan, Eigen+
(CLEO Collab.)
BERGFELD
96B PRL 77 4503
+Eisenstein, Ernst, Gladding+
(CLEO Collab.)
BISHAI
96 PL B369 186
+Fast, Gerndt, Hinson+
(CLEO Collab.)
BUSKULIC
96J ZPHY C71 31
+De Bonis, Decamp, Ghez+
(ALEPH Collab.)
GIBAUT
96 PR D53 4734
+Kinoshita, Pomianowski, Barish+
(CLEO Collab.)
PDG
96 PR D54 1
ABREU
95N PL B357 255
+Adam, Adye, Agasi+
(DELPHI Collab.)
ABREU
95Q ZPHY C68 13
+Adam, Adye, Agasi+
(DELPHI Collab.)
ADAM
95 ZPHY C68 363
+Adye, Agasi, Ajinenko+
(DELPHI Collab.)
AKERS
95T ZPHY C67 379
+Alexander, Allison, Ametewee+
(OPAL Collab.)
ALBRECHT
95D PL B353 554
+Hamacher, Hofmann, Kircho+
(ARGUS Collab.)
ALEXANDER 95 PL B341 435
+Bebek, Berkelman, Bloom+
(CLEO Collab.)
Also
95C PL B347 469 (erratum) Alexander, Bebek, Berkelman, Bloom+
(CLEO Collab.)
ARTUSO
95 PRL 75 785
+Gao, Goldberg, He+
(CLEO Collab.)
BARISH
95 PR D51 1014
+Chadha, Chan, Cowen+
(CLEO Collab.)
BUSKULIC
95 PL B343 444
+Casper, De Bonis, Decamp, Ghez, Goy+ (ALEPH Collab.)
ABE
94D PRL 72 3456
+Albrow, Amidei, Anway-Wiese, Apollinari
(CDF Collab.)
ALAM
94 PR D50 43
+Kim, Nemati, O'Neill, Severini+
(CLEO Collab.)
ALBRECHT
94D PL B335 526
+Hamacher, Hofmann, Kirchho, Mankel+ (ARGUS Collab.)
ATHANAS
94 PRL 73 3503
+Brower, Masek, Paar, Gronberg+
(CLEO Collab.)
Also
95 PRL 74 3090 (erratum) Athanas, Brower, Masek, Paar+
(CLEO Collab.)
PDG
94 PR D50 1173
Montanet+
(CERN, LBL, BOST, IFIC+)
STONE
94 HEPSY 93-11
ABREU
93D ZPHY C57 181
+Adam, Adye, Agasi, Alekseev+
(DELPHI Collab.)
ABREU
93G PL B312 253
+Adam, Adye, Agasi, Ajinenko+
(DELPHI Collab.)
ACTON
93C PL B307 247
+Alexander, Allison, Allport, Anderson+
(OPAL Collab.)
ALBRECHT
93E ZPHY C60 11
+Ehrlichmann, Hamacher, Hofmann+
(ARGUS Collab.)
HTTP://PDG.LBL.GOV
Page 37
Created: 7/22/1999 09:27
Citation: C. Caso
et
al.
(Particle Data Group), European Phys Jour
C3
, 1 (1998) and 1999 partial update for edition 2000 (URL: http://pdg.lbl.gov)
ALEXANDER 93B PL B319 365
+Bebek, Berkelman, Bloom, Browder+
(CLEO Collab.)
AMMAR
93 PRL 71 674
+Ball, Baringer, Coppage, Copty+
(CLEO Collab.)
BEAN
93B PRL 70 2681
+Gronberg, Kutschke, Menary, Morrison+ (CLEO Collab.)
BUSKULIC
93D PL B307 194
+Decamp, Goy, Lees, Minard+
(ALEPH Collab.)
Also
94H PL B325 537 (errata)
SANGHERA
93 PR D47 791
+Skwarnicki, Stroynowski, Artuso, Goldberg+(CLEO Collab.)
ALBRECHT
92C PL B275 195
+Ehrlichmann, Hamacher, Krueger, Nau+ (ARGUS Collab.)
ALBRECHT
92E PL B277 209
+Ehrlichmann, Hamacher, Krueger, Nau+ (ARGUS Collab.)
ALBRECHT
92G ZPHY C54 1
+Ehrlichmann, Hamacher, Krueger, Nau+ (ARGUS Collab.)
BORTOLETTO 92 PR D45 21
+Brown, Dominick, McIlwain+
(CLEO Collab.)
BUSKULIC
92G PL B295 396
+Decamp, Goy, Lees, Minard+
(ALEPH Collab.)
ALBRECHT
91B PL B254 288
+Glaeser, Harder, Krueger, Nippe+
(ARGUS Collab.)
ALBRECHT
91C PL B255 297
+Ehrlichmann, Glaeser, Harder, Krueger+ (ARGUS Collab.)
ALBRECHT
91E PL B262 148
+Glaeser, Harder, Krueger, Nippe+
(ARGUS Collab.)
BERKELMAN 91 ARNPS 41 1
+Stone
(CORN, SYRA)
\Decays of
B
Mesons"
FULTON
91 PR D43 651
+Jensen, Johnson, Kagan, Kass+
(CLEO Collab.)
ALBRECHT
90B PL B241 278
+Glaeser, Harder, Krueger, Nilsson+
(ARGUS Collab.)
ALBRECHT
90J ZPHY C48 543
+Ehrlichmann, Harder, Krueger+
(ARGUS Collab.)
ANTREASYAN 90B ZPHY C48 553
+Bartels, Bieler, Bienlein, Bizzeti+
(Crystal Ball Collab.)
BORTOLETTO 90 PRL 64 2117
+Goldberg, Horwitz, Jain, Mestayer+
(CLEO Collab.)
Also
92 PR D45 21
Bortoletto, Brown, Dominick, McIlwain+ (CLEO Collab.)
WEIR
90B PR D41 1384
+Klein, Abrams, Adolphsen, Akerlof+
(Mark II Collab.)
ALBRECHT
89G PL B229 304
+Glaeser, Harder, Krueger+
(ARGUS Collab.)
AVERY
89B PL B223 470
+Besson, Garren, Yelton+
(CLEO Collab.)
BEBEK
89 PRL 62 8
+Berkelman, Blucher+
(CLEO Collab.)
BORTOLETTO 89 PRL 62 2436
+Goldberg, Horwitz, Mestayer+
(CLEO Collab.)
ALBRECHT
88F PL B209 119
+Boeckmann, Glaeser+
(ARGUS Collab.)
ALBRECHT
88K PL B215 424
+Boeckmann, Glaeser+
(ARGUS Collab.)
ALBRECHT
87C PL B185 218
+Binder, Boeckmann, Glaser+
(ARGUS Collab.)
ALBRECHT
87D PL B199 451
+Andam, Binder, Boeckmann+
(ARGUS Collab.)
AVERY
87 PL B183 429
+Besson, Bowcock, Giles+
(CLEO Collab.)
BEBEK
87 PR D36 1289
+Berkelman, Blucher, Cassel+
(CLEO Collab.)
ALAM
86 PR D34 3279
+Katayama, Kim, Sun+
(CLEO Collab.)
PDG
86 PL 170B
Aguilar-Benitez, Porter+
(CERN, CIT+)
GILES
84 PR D30 2279
+Hassard, Hempstead, Kinoshita+
(CLEO Collab.)
HTTP://PDG.LBL.GOV
Page 38
Created: 7/22/1999 09:27