Design, Performance and Calibration of the CMS Forward Calorimeter Wedges

We report on the test beam results and calibration methods using charged particles of the CMS Forward Calorimeter (HF). The HF calorimeter covers a large pseudorapidity region (3\l |\eta| \le 5), and is essential for large number of physics channels with missing transverse energy. It is also expected to play a prominent role in the measurement of forward tagging jets in weak boson fusion channels. The HF calorimeter is based on steel absorber with embedded fused-silica-core optical fibers where Cherenkov radiation forms the basis of signal generation. Thus, the detector is essentially sensitive only to the electromagnetic shower core and is highly non-compensating (e/h \approx 5). This feature is also manifest in narrow and relatively short showers compared to similar calorimeters based on ionization. The choice of fused-silica optical fibers as active material is dictated by its exceptional radiation hardness. The electromagnetic energy resolution is dominated by photoelectron statistics and can be expressed in the customary form as a/\sqrt{E} + b. The stochastic term a is 198% and the constant term b is 9%. The hadronic energy resolution is largely determined by the fluctuations in the neutral pion production in showers, and when it is expressed as in the electromagnetic case, a = 280% and b = 11%

CMS physics technical design report : Addendum on high density QCD with heavy ions

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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%

Incidence and molecular analysis of glucose-6-phosphate dehydrogenase deficiency in the province of Denizli, Turkey

Background: G6PD deficiency is a widespread abnormality of glucose-6-phosphate dehydrogenase, a red cell enzyme, which gives rise to hemolysis under oxidative stress. In Turkey, G6PD deficiency has a variable frequency in different regions. The prevalence and genotypes of G6PD deficiency are not known in Denizli province of the Aegean region of Turkey. Accordingly, this study was designed to investigate the prevalence of enzyme deficiency and the distribution of the Mediterranean mutation of G6PD in this region. Material/Methods: A total of 1950 students (918 females, 1032 males, ages between 14 and 17) were screened by the Fluorescent Spot Test, and the G6PD deficiency was confirmed by quantitative spectrophotometric assay. The G6PD deficient subjects were further analyzed by the PCR/RFLP technique to identify the presence of the 563 T Mediterranean mutation. Results: 24 of the subjects were found to be deficient in this enzyme, a frequency of 1.23%. Of 24 deficient subjects, 19 (79%) had the 563 T Mediterranean mutation. Conclusions: The frequency of G6PD enzyme deficiency appears to be low compared with those found in the malaria-endemic Mediterranean region of Turkey. The molecular pathology of G6PD deficiency is related to the G6PD-563 T mutation in the Denizli region

Incidence and molecular analysis of glucose-6-phosphate dehydrogenase deficiency in the province of Denizli, Turkey.

BACKGROUND: G6PD deficiency is a widespread abnormality of glucose-6-phosphate dehydrogenase, a red cell enzyme, which gives rise to hemolysis under oxidative stress. In Turkey, G6PD deficiency has a variable frequency in different regions. The prevalence and genotypes of G6PD deficiency are not known in Denizli province of the Aegean region of Turkey. Accordingly, this study was designed to investigate the prevalence of enzyme deficiency and the distribution of the Mediterranean mutation of G6PD in this region. MATERIAL/METHODS: A total of 1950 students (918 females, 1032 males, ages between 14 and 17) were screened by the Fluorescent Spot Test, and the G6PD deficiency was confirmed by quantitative spectrophotometric assay. The G6PD deficient subjects were further analyzed by the PCR/RFLP technique to identify the presence of the 563 T Mediterranean mutation. RESULTS: 24 of the subjects were found to be deficient in this enzyme, a frequency of 1.23%. Of 24 deficient subjects, 19 (79%) had the 563 T Mediterranean mutation. CONCLUSIONS: The frequency of G6PD enzyme deficiency appears to be low compared with those found in the malaria-endemic Mediterranean region of Turkey. The molecular pathology of G6PD deficiency is related to the G6PD-563 T mutation in the Denizli region