claudioc/ZMet/introduction.tex

\section{Introduction}
\label{sec:intro}


In this Letter we describe a search for physics beyond the Standard Model (BSM) 
in a \lumi\ sample of proton-proton collisions collected by the Compact Muon 
Solenoid (CMS) detector at the Large Hadron Collider (LHC), at a center-of-mass 
energy of $\sqrt{s}=7$~TeV. We search for events with $Z \to \ell \ell$ ($\ell =
e$ or $\mu$),
accompanied by significant 
hadronic energy and missing transverse energy (\met). This search is motivated by 
three general considerations: 
astrophysical evidence for dark matter suggests that we concentrate on 
events with high \met, production of $Z$ bosons with high \met is 
a rare process in the SM,
and high cross section BSM physics signals are likely to be produced 
strongly, producing significant hadronic activity in conjunction with the $Z$-boson.
A specific BSM scenario which results in this signature is provided by
Supersymmetric (SUSY) models in which new, heavy particles are pair-produced and subsequently
undergo cascade decays, producing hadronic jets and, in some cases, 
$Z$-bosons~\cite{Martin:fk}. These 
cascade decays terminate in the production of a weakly-interacting massive particle (WIMP), 
which escapes detection and results in large \met.

Our strategy is as follows.  We select clean samples of $Z \to ee$ and 
$Z \to \mu \mu$ with two or more hadronic jets.  We compare the \met distribution
in these events with Standard Model (SM) expectations obtained using data-driven
methods to minimize the dependence on Monte Carlo simulation.  Having found
no evidence for events with anomalously high \met, we proceed
to set limits on the cross-section for the 
production of $Z$-bosons with jets and \met $> 60$ and
$> 120$ GeV.  Finally, we provide information to enable others
to use our results for model testing.

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#	Content
1	\section{Introduction}
2	\label{sec:intro}
3
4
5	In this Letter we describe a search for physics beyond the Standard Model (BSM)
6	in a \lumi\ sample of proton-proton collisions collected by the Compact Muon
7	Solenoid (CMS) detector at the Large Hadron Collider (LHC), at a center-of-mass
8	energy of $\sqrt{s}=7$~TeV. We search for events with $Z \to \ell \ell$ ($\ell =
9	e$ or $\mu$),
10	accompanied by significant
11	hadronic energy and missing transverse energy (\met). This search is motivated by
12	three general considerations:
13	astrophysical evidence for dark matter suggests that we concentrate on
14	events with high \met, production of $Z$ bosons with high \met is
15	a rare process in the SM,
16	and high cross section BSM physics signals are likely to be produced
17	strongly, producing significant hadronic activity in conjunction with the $Z$-boson.
18	A specific BSM scenario which results in this signature is provided by
19	Supersymmetric (SUSY) models in which new, heavy particles are pair-produced and subsequently
20	undergo cascade decays, producing hadronic jets and, in some cases,
21	$Z$-bosons~\cite{Martin:fk}. These
22	cascade decays terminate in the production of a weakly-interacting massive particle (WIMP),
23	which escapes detection and results in large \met.
24
25	Our strategy is as follows. We select clean samples of $Z \to ee$ and
26	$Z \to \mu \mu$ with two or more hadronic jets. We compare the \met distribution
27	in these events with Standard Model (SM) expectations obtained using data-driven
28	methods to minimize the dependence on Monte Carlo simulation. Having found
29	no evidence for events with anomalously high \met, we proceed
30	to set limits on the cross-section for the
31	production of $Z$-bosons with jets and \met $> 60$ and
32	$> 120$ GeV. Finally, we provide information to enable others
33	to use our results for model testing.
34