codeBS/CMSnote/Bkgs.tex


\subsection{\boldmath{$B$} Background Studies}

We studied the main sources of $B$ background in an earlier MC dataset 
generated for a collision energy of 10~TeV~(Summer'09).
We do not expect that the mixture of the different sources changes
dramatically for a lower collision energy of 7~TeV. 
We list sources that contribute at least one event with a preliminary
estimate of their contribution in the present sample.
The final estimate of the contribution for a given integrated luminosity
still needs to be performed on a consistently generated cocktail sample for 7~TeV.

The main categories are:
\begin{itemize}
\item $B_d\rightarrow J/ \psi K^*$: the signature of this channel is very similar to 
the signal $B_s\rightarrow J/ \psi \phi$ by replacing a kaon with a pion. This is
the most important source of background and the selection has been done to optimize 
the discrimination between this channel and our signal.
\item $B_d\rightarrow J/ \psi K_1^0$: one of the feeddown channel for 
$B_s\rightarrow J/ \psi \phi$. The $K_1^0$ meson primarily decays into 
$\rho $ and a charged $K$.
The misreconstruction occurs when the two charged pions from the $\rho$ 
meson are, the first, identified as a charged $K$, the latter, lost.   
\item $B_d\rightarrow J/ \psi K^0_S$: decay channel with $K_s^0$ decaying 
into two charged pions. The misreconstruction occurs where both charged 
pions are misidentified as charged kaons.
%\item $B_s\rightarrow J/ \psi K^+K^-$: same signature as our signal but the 
%charged kaons do not make the $\phi$ resonance.
\item $B_s\rightarrow J/ \psi \eta$: one of the main background coming from 
$B_s$ mesons. The knowledge of only the upper limit for the branching fraction 
make us overestimate this background channel. 
\item $B^+\rightarrow J/ \psi K^+$: one of the feedup channel for 
$B_s\rightarrow J/ \psi \phi$. The charged $K$ is matched to a flying 
$K$ from the background to make a $\phi$ meson. 
\item Other $B_s$: all the decay of the $B_s$ with daughter a $J/ \psi$ and any 
other particle
\item Other $B_d$: all the decay of the $B_d$ with daughter a $J/ \psi$ and 
any other particle
\item Other: all the remaining decays from the hadronization of $b\bar{b}$ quarks
\end{itemize}

Table~\ref{tab:bsbkg} lists potential background from other $B_s$ decays,
Table~\ref{tab:bdbkg} from $B_d$ decays, and Table~\ref{tab:bplusbkg}
from $B^+$ decays. 

\begin{table}[htp]
\begin{center}
\begin{tabular}{|l|c|c|}
\hline
\multicolumn{3}{|c|}{$B_s$ background} \\
\hline
Decay channel & $\#$ Ev.  & BF   \\ \hline
\hline
$J/ \psi \eta$ & 8 & $<3.8\times 10^{-3}$ \\ \hline
$J/ \psi \eta'$ & 2 & $<3.8\times 10^{-3*}$ \\ \hline
$D_s^{*+}e\bar{\nu_e}$ & 2 & $(7.9 \pm 2.4)\%$ \\ \hline
$D_s^{*+}\mu^+\nu_{\mu}$ & 2 & $(7.9 \pm 2.4)\%$ \\ \hline
$D_s^{*+}D_s^-$ & & $<12.1 \%$ \\ \hline
$D_s^{*+}D_s^{*-}$ & & $<25.7 \%$\\ \hline
$D_{s1}^{'-}\mu^+\nu_{\mu}$ & & $(2.3 \pm 0.7)\times 10^{-3}$\\ \hline
$J/ \psi (2S)K^+K^-$ & & $(6.8 \pm 3.0) \times 10^{-4}$\\ \hline
$D_s^{*+}\bar{D^0}K^{*-}$ &  &   \\ \hline
$D^*(2010)^-\Delta^0 \Sigma^-$ & & \\ \hline
$D_s^{+}D^- \bar{K^0}$ & & \\ \hline
$\chi_{c1}(1P)\eta '$ & & \\ \hline
$\bar{K^0}\pi^+D^*(2010)^-$ & & \\ \hline
$a_1^+D_s^{-}$ & & \\ \hline
$D_s^-\eta \rho^+$ & & \\ \hline
$\chi_{c1}\phi$ & & \\ \hline
$D_s^-\pi^0\pi^+$ & & \\ \hline
$D_s^{*-}\rho^{+}\rho^0$ & & \\ \hline
$K^*\pi^0 D^{*0}$ & & \\ \hline
$D_s^{*-}\eta\rho^+$ & & \\ \hline
$\#$ of events & 30 &  \\ \hline
$\#$ of events with $\ge$ 4 daughters & 9 &  \\ \hline
Total & 39 & \\ \hline
\end{tabular}
\caption{\sl Potential $B_s$ background channels}
\label{tab:bsbkg}
\end{center}
\end{table}

\begin{table}[htp]
\begin{center}
\begin{tabular}{|l|c|c|}
\hline
\multicolumn{3}{|c|}{$B_d$ background} \\
\hline
Decay channel & $\#$ Ev.  & BF   \\ \hline
\hline
$J/ \psi K_1^0$ & 34 & $(1.3 \pm 0.5)\times 10^{-3}$\\ \hline
$\rightarrow K\rho $ & 22 & \\ \hline
$\rightarrow K^*(892)\pi $ & 5 & \\ \hline
$\rightarrow K^+ \pi^- \pi^0$ & 4 & \\ \hline
$\rightarrow K^0 \pi^+ \pi^- $ & 3 & \\ \hline
$J/ \psi K^0$ & 5 & $(8.71\pm 0.32)\times 10^{-4}$\\ \hline
$D^*(2010)^- e^+ \nu_e$ & 3 & $(5.16 \pm 0.11) \%$ \\ \hline
$\chi_{c1} K^{*0}$ & 3 & $(2.0 \pm 0.3)\times 10^{-4}$\\ \hline
$J/ \psi K^+ \pi^-$ & 3 & $(1.2 \pm 0.6)\times 10^{-3}$\\ \hline
$J/ \psi(2S) K^+\pi^-$ & 2 & $<1 \times 10^{-3}$ \\ \hline
$J/ \psi K_2^{*0}$ & 2 & \\ \hline
$D^+ D^*(2010)^- \bar{K^0}$ & 2 & $(6.5 \pm 1.6)\times 10^{-3}$ \\ \hline
$D^*(2010)^+ D_s^{*-} $ & & $(1.78 \pm 0.14) \%$\\ \hline
$D^*(2010)^+ \rho^0 \rho^- $ & & $(1.76 \pm 0.27)\%$\\ \hline
$D^*(2010)^- \eta \pi^+ $ & & $(1.76 \pm 0.27)\%$\\ \hline
$J/ \psi \rho^0$ & & $(2.7 \pm 0.4)\times 10^{-5}$\\ \hline
$\chi_{c1} K^- \pi^+$ & & $(3.8 \pm 0.4)\times 10^{-4}$\\ \hline
$D^*(2010)^+ \bar{D^*(2007)^0 K^-}$ & &$(1.18 \pm 0.20)\%$ \\ \hline
$D^*(2010)^-\omega \pi^+$ & &$(2.89 \pm 0.30)\times 10^{-3}$ \\ \hline
$D^*(2010)^- D_s^{*+}$ & & $(8.2\pm 1.1)\times 10^{-3}$\\ \hline
$D^*(2007)^0 \pi^+ K^-$ & & $<6.9 \times 10^{-5}$\\ \hline
$\bar{D^*(2007)^0} D^0 \bar{K^{0}}$ & &$<6.6 \times 10^{-3}$ \\ \hline
$\bar{D^*(2007)^0} \pi^+ \pi^-$ & & $(6.2 \pm 2.2)\times 10^{-4}$\\ \hline
$J/ \psi K^{*0} \pi^0$ & & $(6.6 \pm 2.2)\times 10^{-4}$\\ \hline
$D_s^{*+}D^-$ & &$(7.5 \pm 1.6)\times 10^{-3}$ \\ \hline
$D^*(2010)^+ \omega \pi^-$ & & $(2.89\pm 0.30)\times 10^{-3}$\\ \hline
$\chi_{c2} K^- \pi^+$ & & $< 3.6\times 10^{-5}$\\ \hline
$D^*(2007)^0 D^- K^+$ & &$(4.6 \pm 1.0)\times 10^{-3}$ \\ \hline
$J/ \psi \omega$ &  & $<2.7 \times 10^{-4}$\\ \hline
$D_0^{*-}\tau\bar{\nu_{\tau}}$ &  &   \\ \hline
$D_1^+ e \bar{\nu_e}$ & & \\ \hline
$D^+ e^- \bar{\nu_e}$ & & \\ \hline
$D_1(2420)^- D_s^{*+}$ & & \\ \hline
$D^*(2010)^-\mu^+\nu_{\mu}$ & & \\ \hline
$D^*(2010)^- K^+ K^{*0}$ & & \\ \hline
$D^+ \rho^0 \pi^-$ & & \\ \hline
$D^- \pi^+ \pi^0$ & & \\ \hline
$D_2^*(2460)^+ \tau \bar{\nu_{\tau}}$ & & \\ \hline
$\bar{D^*(2007)^0} \Sigma^{*0} \bar{\Sigma^{*0}}$ & & \\ \hline
$\chi_{c1} \bar{K^{0}} \pi^0$ & & \\ \hline
$D^*(2010)^+ a_1^-$ & & \\ \hline
$D^*(2010)^+ \tau \bar{\nu_{\tau}}$ & & \\ \hline
$D_1^{'*-} \mu^+ \nu_{\mu}$ & & \\ \hline
$\eta' K^+ D_s^-$ & & \\ \hline
$D_1(2420)^+\mu^+ \nu_{\mu}$ & & \\ \hline
$D^*(2010)^+ \rho^+ \eta$ & & \\ \hline
$\#$ of events & 88 &  \\ \hline
$\#$ of events with $\ge$ 4 daughters & 22 &  \\ \hline
Total & 110 & \\ \hline
\end{tabular}
\caption{\sl Potential $B_d$ bacjground channels.}
\label{tab:bdbkg}
\end{center}
\end{table}

\begin{table}[htp]
\begin{center}
\begin{tabular}{|l|c|c|}
\hline
\multicolumn{3}{|c|}{Other background} \\
\hline
Decay channel & $\#$ Ev.  & BF   \\ \hline
$B^+\rightarrow J/ \psi K_1^+ $ & 17 & $(1.8 \pm 0.5)\times 10^{-3}$\\ \hline
$B^+\rightarrow J/ \psi K^{*+} $ & 4 &$(1.43\pm 0.08)\times 10^{-3}$ \\ \hline
$B^+\rightarrow J/ \psi K^+$ & 4 & $(1.007\pm 0.035)\times 10^{-3}$\\ \hline
$B^+\rightarrow D^*(2007)^0 \tau^+ \nu_{\tau}$ & 3 & $(2.2\pm 0.6)\%$\\ \hline
$B^-\rightarrow D^0 e \bar{\nu_e} $ & 2 &$(2.24\pm 0.11)\%$ \\ \hline
$B^+\rightarrow D^*(2007)^0 e^+ \nu_{e}$ & 2 &$(5.68\pm 0.19)\% $ \\ \hline
$B^+\rightarrow D^*(2007)^0 \mu^+ \nu_{\mu}$ & 2 & $(5.68\pm 0.19)\%$\\ \hline
$B^-\rightarrow J/ \psi(2S) K^{-} $ & 2 & $(6.48\pm 0.35)\times 10^{-4}$\\ \hline
$B^-\rightarrow \chi_{c1} K^{*-}$ & 2 &$(3.6\pm 0.9)\times 10^{-4}$ \\ \hline
$B^+\rightarrow \chi_{c1} K^+$ & &$(5.1\pm 0.5)\times 10^{-4}$\\ \hline
$B^+\rightarrow D_s^{*+} \bar{D^0}$ & &$(7.8\pm 1.6)\times 10^{-3}$ \\ \hline
$B^+\rightarrow J/ \psi pi^{+} $ & & $(4.9\pm 0.6)\times 10^{-5}$\\ \hline
$B^-\rightarrow D^*(2007)^0 D^*(2010)^- \bar{K^0}$ & &$(7.8\pm 2.6)\times 10^{-3}$ \\ \hline
$B^-\rightarrow D^*(2007)^0 \bar{D^*(2007)^0} K^-$ & &$(5.3\pm 1.6)\times 10^{-3}$ \\ \hline
$B^+\rightarrow D_0^{*0} e^+ \nu_{e}$ & & $(2.5\pm 0.5)\times 10^{-3}$\\ \hline
$B^-\rightarrow D_s^{*+} \bar{D^*(2007)^0}$ & & $(1.74\pm 0.23)\%$\\ \hline
$B^-\rightarrow D_s^{*-} D^+ \pi^-$ & & \\ \hline
$B^+\rightarrow J/ \psi K_1^{'+} $ & & \\ \hline
$B^+\rightarrow D_2^*(2460)^0 D_s^+$ & & \\ \hline
$\Lambda_b\rightarrow J/ \psi(2S) \Lambda$ & & \\ \hline
$B^+\rightarrow D^*(2007)^0 D_{s1}(H)^+$ & & \\ \hline
$\Lambda_b\rightarrow J/ \psi \Lambda$ & & \\ \hline
$B^+\rightarrow D_s^+ \bar{D^0} \pi^0$ & & \\ \hline
$B^+\rightarrow \rho^0 \Sigma_c^- \Delta^{++}$ & & \\ \hline
$\Lambda_b\rightarrow \Lambda_c^+ D_s^{*-}$ & & \\ \hline
$B^-\rightarrow J/ \psi D_{s0}^{*-}$ & & \\ \hline
$\#$ of events & 55 &  \\ \hline
$\#$ of events with $\ge$ 4 daughters & 10 &  \\ \hline
Total & 65 & \\ \hline
\end{tabular}
\caption{\sl Potential background $B^+$ decay channels.}
\label{tab:bplusbkg}
\end{center} 
\end{table}
\clearpage
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#	Content
1
2	\subsection{\boldmath{$B$} Background Studies}
3
4	We studied the main sources of $B$ background in an earlier MC dataset
5	generated for a collision energy of 10~TeV~(Summer'09).
6	We do not expect that the mixture of the different sources changes
7	dramatically for a lower collision energy of 7~TeV.
8	We list sources that contribute at least one event with a preliminary
9	estimate of their contribution in the present sample.
10	The final estimate of the contribution for a given integrated luminosity
11	still needs to be performed on a consistently generated cocktail sample for 7~TeV.
12
13	The main categories are:
14	\begin{itemize}
15	\item $B_d\rightarrow J/ \psi K^*$: the signature of this channel is very similar to
16	the signal $B_s\rightarrow J/ \psi \phi$ by replacing a kaon with a pion. This is
17	the most important source of background and the selection has been done to optimize
18	the discrimination between this channel and our signal.
19	\item $B_d\rightarrow J/ \psi K_1^0$: one of the feeddown channel for
20	$B_s\rightarrow J/ \psi \phi$. The $K_1^0$ meson primarily decays into
21	$\rho $ and a charged $K$.
22	The misreconstruction occurs when the two charged pions from the $\rho$
23	meson are, the first, identified as a charged $K$, the latter, lost.
24	\item $B_d\rightarrow J/ \psi K^0_S$: decay channel with $K_s^0$ decaying
25	into two charged pions. The misreconstruction occurs where both charged
26	pions are misidentified as charged kaons.
27	%\item $B_s\rightarrow J/ \psi K^+K^-$: same signature as our signal but the
28	%charged kaons do not make the $\phi$ resonance.
29	\item $B_s\rightarrow J/ \psi \eta$: one of the main background coming from
30	$B_s$ mesons. The knowledge of only the upper limit for the branching fraction
31	make us overestimate this background channel.
32	\item $B^+\rightarrow J/ \psi K^+$: one of the feedup channel for
33	$B_s\rightarrow J/ \psi \phi$. The charged $K$ is matched to a flying
34	$K$ from the background to make a $\phi$ meson.
35	\item Other $B_s$: all the decay of the $B_s$ with daughter a $J/ \psi$ and any
36	other particle
37	\item Other $B_d$: all the decay of the $B_d$ with daughter a $J/ \psi$ and
38	any other particle
39	\item Other: all the remaining decays from the hadronization of $b\bar{b}$ quarks
40	\end{itemize}
41
42	Table~\ref{tab:bsbkg} lists potential background from other $B_s$ decays,
43	Table~\ref{tab:bdbkg} from $B_d$ decays, and Table~\ref{tab:bplusbkg}
44	from $B^+$ decays.
45
46	\begin{table}[htp]
47	\begin{center}
48	\begin{tabular}{\|l\|c\|c\|}
49	\hline
50	\multicolumn{3}{\|c\|}{$B_s$ background} \\
51	\hline
52	Decay channel & $\#$ Ev. & BF \\ \hline
53	\hline
54	$J/ \psi \eta$ & 8 & $<3.8\times 10^{-3}$ \\ \hline
55	$J/ \psi \eta'$ & 2 & $<3.8\times 10^{-3*}$ \\ \hline
56	$D_s^{*+}e\bar{\nu_e}$ & 2 & $(7.9 \pm 2.4)\%$ \\ \hline
57	$D_s^{*+}\mu^+\nu_{\mu}$ & 2 & $(7.9 \pm 2.4)\%$ \\ \hline
58	$D_s^{*+}D_s^-$ & & $<12.1 \%$ \\ \hline
59	$D_s^{+}D_s^{-}$ & & $<25.7 \%$\\ \hline
60	$D_{s1}^{'-}\mu^+\nu_{\mu}$ & & $(2.3 \pm 0.7)\times 10^{-3}$\\ \hline
61	$J/ \psi (2S)K^+K^-$ & & $(6.8 \pm 3.0) \times 10^{-4}$\\ \hline
62	$D_s^{+}\bar{D^0}K^{-}$ & & \\ \hline
63	$D^*(2010)^-\Delta^0 \Sigma^-$ & & \\ \hline
64	$D_s^{+}D^- \bar{K^0}$ & & \\ \hline
65	$\chi_{c1}(1P)\eta '$ & & \\ \hline
66	$\bar{K^0}\pi^+D^*(2010)^-$ & & \\ \hline
67	$a_1^+D_s^{-}$ & & \\ \hline
68	$D_s^-\eta \rho^+$ & & \\ \hline
69	$\chi_{c1}\phi$ & & \\ \hline
70	$D_s^-\pi^0\pi^+$ & & \\ \hline
71	$D_s^{*-}\rho^{+}\rho^0$ & & \\ \hline
72	$K^\pi^0 D^{0}$ & & \\ \hline
73	$D_s^{*-}\eta\rho^+$ & & \\ \hline
74	$\#$ of events & 30 & \\ \hline
75	$\#$ of events with $\ge$ 4 daughters & 9 & \\ \hline
76	Total & 39 & \\ \hline
77	\end{tabular}
78	\caption{\sl Potential $B_s$ background channels}
79	\label{tab:bsbkg}
80	\end{center}
81	\end{table}
82
83	\begin{table}[htp]
84	\begin{center}
85	\begin{tabular}{\|l\|c\|c\|}
86	\hline
87	\multicolumn{3}{\|c\|}{$B_d$ background} \\
88	\hline
89	Decay channel & $\#$ Ev. & BF \\ \hline
90	\hline
91	$J/ \psi K_1^0$ & 34 & $(1.3 \pm 0.5)\times 10^{-3}$\\ \hline
92	$\rightarrow K\rho $ & 22 & \\ \hline
93	$\rightarrow K^*(892)\pi $ & 5 & \\ \hline
94	$\rightarrow K^+ \pi^- \pi^0$ & 4 & \\ \hline
95	$\rightarrow K^0 \pi^+ \pi^- $ & 3 & \\ \hline
96	$J/ \psi K^0$ & 5 & $(8.71\pm 0.32)\times 10^{-4}$\\ \hline
97	$D^*(2010)^- e^+ \nu_e$ & 3 & $(5.16 \pm 0.11) \%$ \\ \hline
98	$\chi_{c1} K^{*0}$ & 3 & $(2.0 \pm 0.3)\times 10^{-4}$\\ \hline
99	$J/ \psi K^+ \pi^-$ & 3 & $(1.2 \pm 0.6)\times 10^{-3}$\\ \hline
100	$J/ \psi(2S) K^+\pi^-$ & 2 & $<1 \times 10^{-3}$ \\ \hline
101	$J/ \psi K_2^{*0}$ & 2 & \\ \hline
102	$D^+ D^*(2010)^- \bar{K^0}$ & 2 & $(6.5 \pm 1.6)\times 10^{-3}$ \\ \hline
103	$D^(2010)^+ D_s^{-} $ & & $(1.78 \pm 0.14) \%$\\ \hline
104	$D^*(2010)^+ \rho^0 \rho^- $ & & $(1.76 \pm 0.27)\%$\\ \hline
105	$D^*(2010)^- \eta \pi^+ $ & & $(1.76 \pm 0.27)\%$\\ \hline
106	$J/ \psi \rho^0$ & & $(2.7 \pm 0.4)\times 10^{-5}$\\ \hline
107	$\chi_{c1} K^- \pi^+$ & & $(3.8 \pm 0.4)\times 10^{-4}$\\ \hline
108	$D^(2010)^+ \bar{D^(2007)^0 K^-}$ & &$(1.18 \pm 0.20)\%$ \\ \hline
109	$D^*(2010)^-\omega \pi^+$ & &$(2.89 \pm 0.30)\times 10^{-3}$ \\ \hline
110	$D^(2010)^- D_s^{+}$ & & $(8.2\pm 1.1)\times 10^{-3}$\\ \hline
111	$D^*(2007)^0 \pi^+ K^-$ & & $<6.9 \times 10^{-5}$\\ \hline
112	$\bar{D^*(2007)^0} D^0 \bar{K^{0}}$ & &$<6.6 \times 10^{-3}$ \\ \hline
113	$\bar{D^*(2007)^0} \pi^+ \pi^-$ & & $(6.2 \pm 2.2)\times 10^{-4}$\\ \hline
114	$J/ \psi K^{*0} \pi^0$ & & $(6.6 \pm 2.2)\times 10^{-4}$\\ \hline
115	$D_s^{*+}D^-$ & &$(7.5 \pm 1.6)\times 10^{-3}$ \\ \hline
116	$D^*(2010)^+ \omega \pi^-$ & & $(2.89\pm 0.30)\times 10^{-3}$\\ \hline
117	$\chi_{c2} K^- \pi^+$ & & $< 3.6\times 10^{-5}$\\ \hline
118	$D^*(2007)^0 D^- K^+$ & &$(4.6 \pm 1.0)\times 10^{-3}$ \\ \hline
119	$J/ \psi \omega$ & & $<2.7 \times 10^{-4}$\\ \hline
120	$D_0^{*-}\tau\bar{\nu_{\tau}}$ & & \\ \hline
121	$D_1^+ e \bar{\nu_e}$ & & \\ \hline
122	$D^+ e^- \bar{\nu_e}$ & & \\ \hline
123	$D_1(2420)^- D_s^{*+}$ & & \\ \hline
124	$D^*(2010)^-\mu^+\nu_{\mu}$ & & \\ \hline
125	$D^(2010)^- K^+ K^{0}$ & & \\ \hline
126	$D^+ \rho^0 \pi^-$ & & \\ \hline
127	$D^- \pi^+ \pi^0$ & & \\ \hline
128	$D_2^*(2460)^+ \tau \bar{\nu_{\tau}}$ & & \\ \hline
129	$\bar{D^(2007)^0} \Sigma^{0} \bar{\Sigma^{*0}}$ & & \\ \hline
130	$\chi_{c1} \bar{K^{0}} \pi^0$ & & \\ \hline
131	$D^*(2010)^+ a_1^-$ & & \\ \hline
132	$D^*(2010)^+ \tau \bar{\nu_{\tau}}$ & & \\ \hline
133	$D_1^{'*-} \mu^+ \nu_{\mu}$ & & \\ \hline
134	$\eta' K^+ D_s^-$ & & \\ \hline
135	$D_1(2420)^+\mu^+ \nu_{\mu}$ & & \\ \hline
136	$D^*(2010)^+ \rho^+ \eta$ & & \\ \hline
137	$\#$ of events & 88 & \\ \hline
138	$\#$ of events with $\ge$ 4 daughters & 22 & \\ \hline
139	Total & 110 & \\ \hline
140	\end{tabular}
141	\caption{\sl Potential $B_d$ bacjground channels.}
142	\label{tab:bdbkg}
143	\end{center}
144	\end{table}
145
146	\begin{table}[htp]
147	\begin{center}
148	\begin{tabular}{\|l\|c\|c\|}
149	\hline
150	\multicolumn{3}{\|c\|}{Other background} \\
151	\hline
152	Decay channel & $\#$ Ev. & BF \\ \hline
153	$B^+\rightarrow J/ \psi K_1^+ $ & 17 & $(1.8 \pm 0.5)\times 10^{-3}$\\ \hline
154	$B^+\rightarrow J/ \psi K^{*+} $ & 4 &$(1.43\pm 0.08)\times 10^{-3}$ \\ \hline
155	$B^+\rightarrow J/ \psi K^+$ & 4 & $(1.007\pm 0.035)\times 10^{-3}$\\ \hline
156	$B^+\rightarrow D^*(2007)^0 \tau^+ \nu_{\tau}$ & 3 & $(2.2\pm 0.6)\%$\\ \hline
157	$B^-\rightarrow D^0 e \bar{\nu_e} $ & 2 &$(2.24\pm 0.11)\%$ \\ \hline
158	$B^+\rightarrow D^*(2007)^0 e^+ \nu_{e}$ & 2 &$(5.68\pm 0.19)\% $ \\ \hline
159	$B^+\rightarrow D^*(2007)^0 \mu^+ \nu_{\mu}$ & 2 & $(5.68\pm 0.19)\%$\\ \hline
160	$B^-\rightarrow J/ \psi(2S) K^{-} $ & 2 & $(6.48\pm 0.35)\times 10^{-4}$\\ \hline
161	$B^-\rightarrow \chi_{c1} K^{*-}$ & 2 &$(3.6\pm 0.9)\times 10^{-4}$ \\ \hline
162	$B^+\rightarrow \chi_{c1} K^+$ & &$(5.1\pm 0.5)\times 10^{-4}$\\ \hline
163	$B^+\rightarrow D_s^{*+} \bar{D^0}$ & &$(7.8\pm 1.6)\times 10^{-3}$ \\ \hline
164	$B^+\rightarrow J/ \psi pi^{+} $ & & $(4.9\pm 0.6)\times 10^{-5}$\\ \hline
165	$B^-\rightarrow D^(2007)^0 D^(2010)^- \bar{K^0}$ & &$(7.8\pm 2.6)\times 10^{-3}$ \\ \hline
166	$B^-\rightarrow D^(2007)^0 \bar{D^(2007)^0} K^-$ & &$(5.3\pm 1.6)\times 10^{-3}$ \\ \hline
167	$B^+\rightarrow D_0^{*0} e^+ \nu_{e}$ & & $(2.5\pm 0.5)\times 10^{-3}$\\ \hline
168	$B^-\rightarrow D_s^{+} \bar{D^(2007)^0}$ & & $(1.74\pm 0.23)\%$\\ \hline
169	$B^-\rightarrow D_s^{*-} D^+ \pi^-$ & & \\ \hline
170	$B^+\rightarrow J/ \psi K_1^{'+} $ & & \\ \hline
171	$B^+\rightarrow D_2^*(2460)^0 D_s^+$ & & \\ \hline
172	$\Lambda_b\rightarrow J/ \psi(2S) \Lambda$ & & \\ \hline
173	$B^+\rightarrow D^*(2007)^0 D_{s1}(H)^+$ & & \\ \hline
174	$\Lambda_b\rightarrow J/ \psi \Lambda$ & & \\ \hline
175	$B^+\rightarrow D_s^+ \bar{D^0} \pi^0$ & & \\ \hline
176	$B^+\rightarrow \rho^0 \Sigma_c^- \Delta^{++}$ & & \\ \hline
177	$\Lambda_b\rightarrow \Lambda_c^+ D_s^{*-}$ & & \\ \hline
178	$B^-\rightarrow J/ \psi D_{s0}^{*-}$ & & \\ \hline
179	$\#$ of events & 55 & \\ \hline
180	$\#$ of events with $\ge$ 4 daughters & 10 & \\ \hline
181	Total & 65 & \\ \hline
182	\end{tabular}
183	\caption{\sl Potential background $B^+$ decay channels.}
184	\label{tab:bplusbkg}
185	\end{center}
186	\end{table}
187	\clearpage