2,229 research outputs found
Quarkophobic W' for LHC searches
We consider a simplified model where a W' boson is added to the standard
model with negligible couplings to quarks, but generic couplings to leptons and
electroweak bosons. We study the implications of such a model for LHC searches.
Consequently, we propose an LHC search through the vector boson fusion topology
which would have sensitivity for such a new particle with the current
proton-proton collisions's energy and available luminosity.Comment: FPCP 2022 proceeding
Search for Heavy Resonances Decaying to Taus in 7 TeV Proton-Proton Collisions at the Large Hadron Collider
Over the last few decades, the Standard Model (SM) of particle physics has been used as a means of understanding the world around us. However, there is an
increasing amount of data that suggests the SM of particle physics only describes nature up to energies of the electroweak scale. Extensions to the SM have been
developed as a means of explaining experimental observation. If these extensions are indeed the correct mathematical descriptions of nature, the Large Hadron Collider (LHC), located at the European Center for Nuclear Research (CERN) near Geneva, Switzerland, is expected to produce new and exciting physics signatures that can shed light on the evolution of our universe since the early hypothesized Big Bang. Of particular interest are models that may lead to events with highly energetic tau lepton pairs. In this dissertation, focus is placed on a possible search for new heavy gauge
bosons decaying to highly energetic tau pairs using a data sample corresponding to an integrated luminosity of 36 pb^-1 of proton-proton collisions at sqrt(s) = 7 TeV
collected with the CMS detector at the CERN LHC. The number of observed events in the data is in good agreement with the predictions for SM background processes. In the context of the Sequential SM, a Z0 with mass less than 468 GeV/c^2 is excluded at 95 percent credibility level, exceeding the sensitivity by the Tevatron experiments at the Fermi National Accelerator Laboratory
Phenomenology at the LHC of composite particles from strongly interacting Standard Model fermions via four-fermion operators of NJL type
A new physics scenario shows that four-fermion operators of
Nambu-Jona-Lasinio (NJL) type have a strong-coupling UV fixed point, where
composite fermions (bosons ) form as bound states of three (two) SM
elementary fermions and they couple to their constituents via effective contact
interactions at the composite scale (TeV). We
present a phenomenological study to investigate such composite particles at the
LHC by computing the production cross sections and decay widths of composite
fermions in the context of the relevant experiments at the LHC with
collisions at TeV and TeV.
Systematically examining all the different composite particles and the
signatures with which they can manifest, we found a vast spectrum of composite
particles that has not yet been explored at the LHC. Recasting the recent
CMS results of the resonant channel , we find that the composite fermion mass below 4.25 TeV is
excluded for / = 1. We further highlight the region of parameter
space where this specific composite particle can appear using 3 ab,
expected by the High-Luminosity LHC, computing 3 and 5 contour plots
of its statistical significance.Comment: To appear in EPJC. This revised version expands the search for
composite fermion F considering all its possible flavors and topologies and
highlighting the signatures not yet investigated at LH
Probing Compressed Bottom Squarks with Boosted Jets and Shape Analysis
A feasibility study is presented for the search of the lightest bottom squark
(sbottom) in a compressed scenario, where its mass difference from the lightest
neutralino is 5 GeV. Two separate studies are performed: final state
containing two VBF-like tagging jets, missing transverse energy, and zero or
one -tagged jet; and final state consisting of initial state radiation
(ISR) jet, missing transverse energy, and at least one -tagged jet. An
analysis of the shape of the missing transverse energy distribution for signal
and background is performed in each case, leading to significant improvement
over a cut and count analysis, especially after incorporating the consideration
of systematics and pileup. The shape analysis in the VBF-like tagging jet study
leads to a exclusion potential of sbottoms with mass up to GeV for an integrated luminosity of fb at 14 TeV, with
systematics and PU .Comment: 5 pages, 4 figures. Discussions and references updated, reach for
PU=50 case give
Probing Compressed Top Squarks at the LHC at 14 TeV
A feasibility study is presented for the search of the lightest top squark in
a compressed scenario, where its mass is approximately equal to the sum of the
masses of the top quark and the lightest neutralino. The study is performed in
the final state of two b-jets, one lepton, large missing energy, and two
high- jets with large separation in pseudo-rapidity, in opposite
hemispheres, and with large dijet mass. The LHC could discover compressed top
squarks with mass up to approximately 340 GeV (390 GeV) with an integrated
luminosity of 1000 ifb (3000 ifb).Comment: Version updated with major changes: (a) 3-body stop decay (to b+W+n1)
analyzed for first time (b) systematics calculation and discussion
significantly upgraded (c) new kinematic and mass reach plots for the 3-body
decay scenario added (d) discussions clarified throughou
Probing Compressed Sleptons at the LHC using Vector Boson Fusion Processes
The vector boson fusion (VBF) topology at the Large Hadron Collider at 14 TeV
provides an opportunity to search for new physics. A feasibility study for the
search of sleptons in a compressed mass spectra scenario is presented in the
final state of two jets, one or two low non-resonant leptons, and
missing energy. The presence of the VBF tagged jets and missing energy are
effective in reducing Standard Model backgrounds. Using smuon production with a
mass difference between and of 5-15 GeV,
the significance of observing the signal events is found to be
3-6 for =115-135 GeV, considering an integrated
luminosity of 3000 fb.Comment: 6 pages, 1 figure, 3 tables; v3: Journal matched versio
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