2,258 research outputs found
Performance of the CMS cathode strip chambers with cosmic rays
The Cathode Strip Chambers (CSCs) constitute the primary muon tracking device in
the CMS endcaps. Their performance has been evaluated using data taken during a cosmic ray
run in fall 2008. Measured noise levels are low, with the number of noisy channels well below
1%. Coordinate resolution was measured for all types of chambers, and fall in the range 47 µm to
243 µm. The efficiencies for local charged track triggers, for hit and for segments reconstruction
were measured, and are above 99%. The timing resolution per layer is approximately 5 ns
Performance of the CMS Level-1 trigger during commissioning with cosmic ray muons and LHC beams
The CMS Level-1 trigger was used to select cosmic ray muons and LHC beam events during data-taking runs in 2008, and to estimate the level of detector noise. This paper describes the trigger components used, the algorithms that were executed, and the trigger synchronisation. Using data from extended cosmic ray runs, the muon, electron/photon, and jet triggers have been validated, and their performance evaluated. Efficiencies were found to be high, resolutions were found to be good, and rates as expected
Precise mapping of the magnetic field in the CMS barrel yoke using cosmic rays
The CMS detector is designed around a large 4 T superconducting solenoid, enclosed in a 12 000-tonne steel return yoke. A detailed map of the magnetic field is required for the accurate simulation and reconstruction of physics events in the CMS detector, not only in the inner tracking region inside the solenoid but also in the large and complex structure of the steel yoke, which is instrumented with muon chambers. Using a large sample of cosmic muon events collected by CMS in 2008, the field in the steel of the barrel yoke has been determined with a precision of 3 to 8% depending on the location
Performance of CMS muon reconstruction in cosmic-ray events
The performance of muon reconstruction in CMS is evaluated using a large data sample of cosmic-ray muons recorded in 2008. Efficiencies of various high-level trigger, identification, and reconstruction algorithms have been measured for a broad range of muon momenta, and were found to be in good agreement with expectations from Monte Carlo simulation. The relative momentum resolution for muons crossing the barrel part of the detector is better than 1% at 10 GeV/c and is about 8% at 500 GeV/c, the latter being only a factor of two worse than expected with ideal alignment conditions. Muon charge misassignment ranges from less than 0.01% at 10 GeV/c to about 1% at 500 GeV/c
Performance study of the CMS barrel resistive plate chambers with cosmic rays
In October and November 2008, the CMS collaboration conducted a programme of
cosmic ray data taking, which has recorded about 270 million events. The Resistive Plate Chamber
system, which is part of the CMS muon detection system, was successfully operated in the full
barrel. More than 98% of the channels were operational during the exercise with typical detection
efficiency of 90%. In this paper, the performance of the detector during these dedicated runs is
reported
Measurement of the muon stopping power in lead tungstate
A large sample of cosmic ray events collected by the CMS detector is exploited to measure the specific energy loss of muons in the lead tungstate (PbWO_4) of the electromagnetic calorimeter. The measurement spans a momentum range from 5 GeV/c to 1 TeV/c. The results are consistent with the expectations over the entire range. The calorimeter energy scale, set with 120 GeV/c electrons, is validated down to the sub-GeV region using energy deposits, of order 100 MeV, associated with low-momentum muons. The muon critical energy in PbWO_4 is measured to be 160^(+5)_(−6)±8 GeV, in agreement with expectations. This is the first experimental determination of muon critical energy
Alignment of the CMS silicon tracker during commissioning with cosmic rays
The CMS silicon tracker, consisting of 1440 silicon pixel and 15 148 silicon strip detector modules, has been aligned using more than three million cosmic ray charged particles, with additional information from optical surveys. The positions of the modules were determined with respect to cosmic ray trajectories to an average precision of 3–4 microns RMS in the barrel and 3–14 microns RMS in the endcap in the most sensitive coordinate. The results have been validated by several studies, including laser beam cross-checks, track fit self-consistency, track residuals in overlapping module regions, and track parameter resolution, and are compared with predictions obtained from simulation. Correlated systematic effects have been investigated. The track parameter resolutions obtained with this alignment are close to the design performance
Alignment of the CMS muon system with cosmic-ray and beam-halo muons
The CMS muon system has been aligned using cosmic-ray muons collected in 2008
and beam-halo muons from the 2008 LHC circulating beam tests. After alignment, the resolution
of the most sensitive coordinate is 80 microns for the relative positions of superlayers in the same
barrel chamber and 270 microns for the relative positions of endcap chambers in the same ring
structure. The resolution on the position of the central barrel chambers relative to the tracker is
comprised between two extreme estimates, 200 and 700 microns, provided by two complementary
studies. With minor modifications, the alignment procedures can be applied using muons from
LHC collisions, leading to additional significant improvements
Performance of the CMS drift tube chambers with cosmic rays
Studies of the performance of the CMS drift tube barrel muon system are described,
with results based on data collected during the CMS Cosmic Run at Four Tesla. For most of these
data, the solenoidal magnet was operated with a central field of 3.8 T. The analysis of data from
246 out of a total of 250 chambers indicates a very good muon reconstruction capability, with a
coordinate resolution for a single hit of about 260 mm, and a nearly 100% efficiency for the drift
tube cells. The resolution of the track direction measured in the bending plane is about 1:8 mrad,
and the efficiency to reconstruct a segment in a single chamber is higher than 99%. The CMS
simulation of cosmic rays reproduces well the performance of the barrel muon detector
Performance of the CMS hadron calorimeter with cosmic ray muons and LHC beam data
The CMS Hadron Calorimeter in the barrel, endcap and forward regions is fully commissioned. Cosmic ray data were taken with and without magnetic field at the surface hall and after installation in the experimental hall, hundred meters underground. Various measurements were also performed during the few days of beam in the LHC in September 2008. Calibration parameters were extracted, and the energy response of the HCAL determined from test beam data has been checked
- …