Notes/WZCSA07/conclusion.tex

\section{Conclusions  and perspectives}
\label{sec:conclusions}

We have investigated the sensitivity of the CMS experiment
to the detection and study of the $\proton\proton\to\W\Z\to 3 \ell$ process.
Signal and background samples  were processed through full simulation,
reconstruction and analysis chain of CMS.

The present analysis expects a yield of 140 signal for 228 background events per inverse 
femtobarn of LHC integrated luminosity. Chances are therefore that first observation of 
\WZ\ pair production in hadron collisions will be achieved by the end of the first CMS 
physics run. We estimate a statistical significance $S_L\simeq 8.5 $ for 1~\invfb.

We have developed methods for measuring the background yield from data. This
is especially important for substracting the dominant background coming from
events with a genuine \Z boson. 

The largest challenge in the background suppression has proved to be the
rejection of fake electrons originating from hadronic jets or photons. Even
though less problematic, the rejection of true leptons from heavy quark
decays is also an important key in reducing the background. Further work will
need to be done in these directions.
The presence of the neutrino in the \WZ signal, resulting in large missing energy, 
has not been used so far, but the missing energy or the W transverse mass could 
prove as a powerful tool for a better signal extraction in the future.

The relatively large signal yield and low level of background for the
the $\WZ\to 3l$ mode makes it particularly attractive
for the study of anomalous neutral triple gauge boson couplings, which should
be made possible already with a few inverse femtobarns.


Revision:	1.2
Committed:	Fri Jun 27 23:38:48 2008 UTC (16 years, 10 months ago) by vuko
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#	User	Rev	Content
1	vuko	1.1	\section{Conclusions and perspectives}
2			\label{sec:conclusions}
3
4	vuko	1.2	We have investigated the sensitivity of the CMS experiment
5			to the detection and study of the $\proton\proton\to\W\Z\to 3 \ell$ process.
6			Signal and background samples were processed through full simulation,
7			reconstruction and analysis chain of CMS.
8
9			The present analysis expects a yield of 140 signal for 228 background events per inverse
10			femtobarn of LHC integrated luminosity. Chances are therefore that first observation of
11			\WZ\ pair production in hadron collisions will be achieved by the end of the first CMS
12			physics run. We estimate a statistical significance $S_L\simeq 8.5 $ for 1~\invfb.
13
14			We have developed methods for measuring the background yield from data. This
15			is especially important for substracting the dominant background coming from
16			events with a genuine \Z boson.
17
18			The largest challenge in the background suppression has proved to be the
19			rejection of fake electrons originating from hadronic jets or photons. Even
20			though less problematic, the rejection of true leptons from heavy quark
21			decays is also an important key in reducing the background. Further work will
22			need to be done in these directions.
23			The presence of the neutrino in the \WZ signal, resulting in large missing energy,
24			has not been used so far, but the missing energy or the W transverse mass could
25			prove as a powerful tool for a better signal extraction in the future.
26
27			The relatively large signal yield and low level of background for the
28			the $\WZ\to 3l$ mode makes it particularly attractive
29			for the study of anomalous neutral triple gauge boson couplings, which should
30			be made possible already with a few inverse femtobarns.
31
32	vuko	1.1