1,927 research outputs found
CMS Hardware Track Trigger: New Opportunities for Long-Lived Particle Searches at the HL-LHC
The planned upgrade of the CMS detector for the High Luminosity LHC allows to
find tracks in the silicon tracker for every single LHC collision and use them
in the first level (hardware) trigger decision.
So far, studies by CMS collaboration concentrated on the maintaining the
overall trigger performance in the punishing pile up environment. We argue that
the potential capabilities of the track trigger are much wider, and may offer
groundbreaking opportunities for new physics searches. As an example, and to
facilitate community discussion, we use a simple toy simulation to study rare
Higgs decays into new particles with lifetime of order of a few mm
Probing naturally light singlets with a displaced vertex trigger
We investigate the physics case for a dedicated trigger on a low mass,
hadronic displaced vertex at the high luminosity LHC, relying on the CMS phase
II track trigger. We estimate the trigger efficiency with a simplified
simulation of the CMS track trigger and show that the L1 trigger rate from fake
vertices, B meson decays and secondary interactions with the detector material
can likely be brought down to the kHz level with a minimal set of cuts. While
it would with any doubt be a severe experimental challenge to implement, we
conclude that a displaced vertex trigger could open qualitatively new parameter
space for exotic Higgs decays, exotic B decays and even direct production of
light resonances. We parametrize the physics potential in terms of a singlet
scalar mixing with the Standard Model Higgs and an axion-like particle with a
coupling to gluons, and review a number or relevant models motivated by the
hierarchy and strong CP problems, dark matter and baryogenesis.Comment: 18 pages, 8 figure
Discovering hidden sectors with mono-photon Z' searches
In many theories of physics beyond the Standard Model, from extra dimensions
to Hidden Valleys and models of dark matter, Z' bosons mediate between Standard
Model particles and hidden sector states. We study the feasibility of observing
such hidden states through an invisibly decaying Z' at the LHC. We focus on the
process pp -> \gamma Z' -> \gamma X X*, where X is any neutral, (quasi-) stable
particle, whether a Standard Model (SM) neutrino or a new state. This
complements a previous study using pp -> Z Z' -> l+ l- X X*. Only the Z' mass
and two effective charges are needed to describe this process. If the Z' decays
invisibly only to Standard Model neutrinos, then these charges are predicted by
observation of the Z' through the Drell-Yan process, allowing discrimination
between Z' decays to SM neutrinos and invisible decays to new states. We
carefully discuss all backgrounds and systematic errors that affect this
search. We find that hidden sector decays of a 1 TeV Z' can be observed at 5
sigma significance with 50 fb^{-1} at the LHC. Observation of a 1.5 TeV state
requires super-LHC statistics of 1 ab^{-1}. Control of the systematic errors,
in particular the parton distribution function uncertainty of the dominant Z
\gamma background, is crucial to maximize the LHC searchComment: 13 pages, 4 figure
Benefits to the U.S. from Physicists Working at Accelerators Overseas
We illustrate benefits to the U.S. economy and technological infrastructure
of U.S. participation in accelerators overseas. We discuss contributions to
experimental hardware and analysis and to accelerator technology and
components, and benefits stemming from the involvement of U.S. students and
postdoctoral fellows in global scientific collaborations. Contributed to the
proceedings of the Snowmass 2013 Community Summer Study.Comment: 23 pages, 1 figur
FPGA-Based Tracklet Approach to Level-1 Track Finding at CMS for the HL-LHC
During the High Luminosity LHC, the CMS detector will need charged particle
tracking at the hardware trigger level to maintain a manageable trigger rate
and achieve its physics goals. The tracklet approach is a track-finding
algorithm based on a road-search algorithm that has been implemented on
commercially available FPGA technology. The tracklet algorithm has achieved
high performance in track-finding and completes tracking within 3.4 s on a
Xilinx Virtex-7 FPGA. An overview of the algorithm and its implementation on an
FPGA is given, results are shown from a demonstrator test stand and system
performance studies are presented.Comment: Submitted to proceedings of Connecting The Dots/Intelligent Trackers
2017, Orsay, Franc
Simplified Models for LHC New Physics Searches
This document proposes a collection of simplified models relevant to the
design of new-physics searches at the LHC and the characterization of their
results. Both ATLAS and CMS have already presented some results in terms of
simplified models, and we encourage them to continue and expand this effort,
which supplements both signature-based results and benchmark model
interpretations. A simplified model is defined by an effective Lagrangian
describing the interactions of a small number of new particles. Simplified
models can equally well be described by a small number of masses and
cross-sections. These parameters are directly related to collider physics
observables, making simplified models a particularly effective framework for
evaluating searches and a useful starting point for characterizing positive
signals of new physics. This document serves as an official summary of the
results from the "Topologies for Early LHC Searches" workshop, held at SLAC in
September of 2010, the purpose of which was to develop a set of representative
models that can be used to cover all relevant phase space in experimental
searches. Particular emphasis is placed on searches relevant for the first
~50-500 pb-1 of data and those motivated by supersymmetric models. This note
largely summarizes material posted at http://lhcnewphysics.org/, which includes
simplified model definitions, Monte Carlo material, and supporting contacts
within the theory community. We also comment on future developments that may be
useful as more data is gathered and analyzed by the experiments.Comment: 40 pages, 2 figures. This document is the official summary of results
from "Topologies for Early LHC Searches" workshop (SLAC, September 2010).
Supplementary material can be found at http://lhcnewphysics.or
Design, Performance, and Calibration of CMS Hadron-Barrel Calorimeter Wedges
Extensive measurements have been made with pions, electrons and muons on four production wedges of the Compact Muon Solenoid (CMS) hadron barrel (HB) calorimeter in the H2 beam line at CERN with particle momenta varying from 20 to 300 GeV/c. Data were taken both with and without a prototype electromagnetic lead tungstate crystal calorimeter (EB) in front of the hadron calorimeter. The time structure of the events was measured with the full chain of preproduction front-end electronics running at 34 MHz. Moving-wire radioactive source data were also collected for all scintillator layers in the HB. These measurements set the absolute calibration of the HB prior to first pp collisions to approximately 4%
Energy Response and Longitudinal Shower Profiles Measured in CMS HCAL and Comparison With Geant4
The response of the CMS combined electromagnetic and hadron calorimeter to beams of pions with momenta in the range 5-300 GeV/c has been measured in the H2 test beam at CERN. The raw response with the electromagnetic compartment calibrated to electrons and the hadron compartment calibrated to 300 GeV pions may be represented by sigma = (1.2) sqrt{E} oplus (0.095) E. The fraction of energy visible in the calorimeter ranges from 0.72 at 5 GeV to 0.95 at 300 GeV, indicating a substantial nonlinearity. The intrinsic electron to hadron ratios are fit as a function of energy and found to be in the range 1.3-2.7 for the electromagnetic compartment and 1.4-1.8 for the hadronic compartment. The fits are used to correct the non-linearity of the e pi response to 5% over the entire measured range resulting in a substantially improved resolution at low energy. Longitudinal shower profile have been measured in detail and compared to Geant4 models, LHEP-3.7 and QGSP-2.8. At energies below 30 GeV, the data, LHEP and QGSP are in agreement. Above 30 GeV, LHEP gives a more accurate simulation of the longitudinal shower profile
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