Probing natural SUSY from stop pair production at the LHC

A Bartl; A Choudhury; A Crivellin; A Djouadi; A Fowlie; AG Cohen; BC Allanach; C Boehm; C Brust; C Brust; Chengcheng Han; D Casadei; D Feldman; DA Vasquez; DE Kaplan; DE Kaplan; F Caravaglios; G Aad; G Aad; G Aad; G Aad; G Aad; G Aad; G Bhattacharyya; G Bélanger; G Degrassi; GW Anderson; H Baer; H Baer; H Baer; H-T Wei; J Alwall; J Cao; J Cao; J Cao; J Dunkley; J Ellis; J Hisano; J Hisano; J Hisano; J Pumplin; J Rosiek; J Thaler; J Thaler; J Thaler; J-J Cao; JF Gunion; Jin Min Yang; JL Feng; JL Feng; JM Yang; Junjie Cao; K Griest; K Huitu; K Ishiwata; K Rehermann; K Rolbiecki; KL Chan; L Aparicio; Lei Wu; LG Almeida; LG Almeida; LJ Hall; M Asano; M Cacciari; M Cacciari; M Carena; M Carena; M Carena; M Carena; M Dine; M Drees; M Frank; M Jankowiak; M Muhlleitner; M Papucci; M Perelstein; MR Buckley; MS Carena; N Bhattacharyya; N Desai; N Kidonakis; P Bechtle; P Bechtle; P Huet; R Kitano; S Akula; S Bornhauser; S Chatrchyan; S Chatrchyan; S Heinemeyer; S Heinemeyer; S Kraml; S Krippendorf; S Moch; SF King; T Aaltonen; T Aaltonen; T Han; T Han; T Plehn; T Plehn; T Plehn; T Plehn; T Plehn; T Sjöstrand; U Ellwanger; U Ellwanger; V Ahrens; VM Abazov; VM Abazov; W Beenakker; X-J Bi; Y Bai; Y Kats; Y Li; Yang Zhang; Z Han

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Probing natural SUSY from stop pair production at the LHC

Authors: A Bartl
A Choudhury
A Crivellin
A Djouadi
A Fowlie
AG Cohen
BC Allanach
C Boehm
C Brust
C Brust
Chengcheng Han
D Casadei
D Feldman
DA Vasquez
DE Kaplan
DE Kaplan
F Caravaglios
G Aad
G Aad
G Aad
G Aad
G Aad
G Aad
G Bhattacharyya
G Bélanger
G Degrassi
GW Anderson
H Baer
H Baer
H Baer
H-T Wei
J Alwall
J Cao
J Cao
J Cao
J Dunkley
J Ellis
J Hisano
J Hisano
J Hisano
J Pumplin
J Rosiek
J Thaler
J Thaler
J Thaler
J-J Cao
JF Gunion
Jin Min Yang
JL Feng
JL Feng
JM Yang
Junjie Cao
K Griest
K Huitu
K Ishiwata
K Rehermann
K Rolbiecki
KL Chan
L Aparicio
Lei Wu
LG Almeida
LG Almeida
LJ Hall
M Asano
M Cacciari
M Cacciari
M Carena
M Carena
M Carena
M Carena
M Dine
M Drees
M Frank
M Jankowiak
M Muhlleitner
M Papucci
M Perelstein
MR Buckley
MS Carena
N Bhattacharyya
N Desai
N Kidonakis
P Bechtle
P Bechtle
P Huet
R Kitano
S Akula
S Bornhauser
S Chatrchyan
S Chatrchyan
S Heinemeyer
S Heinemeyer
S Kraml
S Krippendorf
S Moch
SF King
T Aaltonen
T Aaltonen
T Han
T Han
T Plehn
T Plehn
T Plehn
T Plehn
T Plehn
T Sjöstrand
U Ellwanger
U Ellwanger
V Ahrens
VM Abazov
VM Abazov
W Beenakker
X-J Bi
Y Bai
Y Kats
Y Li
Yang Zhang
Z Han
Publication date: 1 January 2012
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We consider the natural supersymmetry scenario in the framework of the R-parity conserving minimal supersymmetric standard model (called natural MSSM) and examine the observability of stop pair production at the LHC. We first scan the parameters of this scenario under various experimental constraints, including the SM-like Higgs boson mass, the indirect limits from precision electroweak data and B-decays. Then in the allowed parameter space we study the stop pair production at the LHC followed by the stop decay into a top quark plus a lightest neutralino or into a bottom quark plus a chargino. From detailed Monte Carlo simulations of the signals and backgrounds, we find the two decay modes are complementary to each other in probing the stop pair production, and the LHC with

\sqrt{s}= 14

TeV and 100

fb^{-1}

luminosity is capable of discovering the stop predicted in natural MSSM up to 450 GeV. If no excess events were observed at the LHC, the 95% C.L. exclusion limits of the stop masses can reach around 537 GeV.Comment: 19 pages, 10 figures, version accepted by JHE

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