[en] We describe details of the D0 calorimeter modules and the data acquisition system. We present results about the resolution of ''electromagnetic'' and ''hadronic'' modules, as obtained from exposure to 10-150 GeV electrons and pions in a test beam at Fermilab. Results on the position resolution for electromagnetic showers are also given. (orig.)
Journal
Nuclear Instruments and Methods in Physics Research, Section A; ISSN 0168-9002; 
; CODEN NIMAE; v. 289(3); p. 438-445
; CODEN NIMAE; v. 289(3); p. 438-445
[en] We present the results of tests on two types of uranium/liquid calorimeter modules, one electromagnetic and one hadronic, constructed for the DO detector at the Fermilab Tevatron Collider. For electrons and hardons with energies between 10 and 150 GeV, we present measurements of energy resolution, linearity of response, electromagnetic to hadronic response ratio (e/π), and longitudinal hadronic shower development. We have also investigated the effects of adding small amounts of methane to the liquid argon. (orig.)
Journal
Nuclear Instruments and Methods in Physics Research, Section A; ISSN 0168-9002; ; CODEN NIMAE; v. 280(1); p. 36-44
; CODEN NIMAE; v. 280(1); p. 36-44
[en] The two End Calorimeter Electromagnetic (ECEM) modules of the Dφ liquid argon calorimeter system have been constructed as monolithic units of 1 m radius to provide full azimuthal coverage in the forward and backward regions (1.4< vertical strokeηvertical stroke<4.0) for the study of panti p collisions at the Fermilab Tevatron Collider. An ECEM module consists of 18 layers of absorber disks (mostly 4 mm thick uranium) with interleaved signal disks that have readout pads in semi-projective towers. The mechanical design and construction of the ECEM modules is described in detail. The performance of one ECEM module has been studied in beam tests with electrons. Results are given for the linearity and uniformity of response, the energy and position resolutions, and pion rejection. (orig.)
Journal
Nuclear Instruments and Methods in Physics Research. Section A; ISSN 0168-9002; ; CODEN NIMAER; v. 325(3); p. 393-416
; CODEN NIMAER; v. 325(3); p. 393-416
[en] The DOe detector is used to study pp-bar collisions at the 1800 and 630 GeV center-of-mass energies available at the Fermilab Tevatron. To measure jets, the detector uses a sampling calorimeter composed of uranium and liquid argon as the passive and active media, respectively. Understanding the jet energy calibration is not only crucial for precision tests of QCD, but also for the measurement of particle masses and the determination of physics backgrounds associated with new phenomena. This paper describes the energy calibration of jets observed with the DOe detector at the two pp-bar center-of-mass energies in the transverse energy and pseudorapidity range ET>8 GeV and vertical bar η vertical bar <3
Journal
Nuclear Instruments and Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment; ISSN 0168-9002; ; CODEN NIMAER; v. 424(2-3); p. 352-394
; CODEN NIMAER; v. 424(2-3); p. 352-394