43 research outputs found
The DIRC Particle Identification System for the BABAR Experiment
A new type of ring-imaging Cherenkov detector is being used for hadronic particle identification in the BABAR experiment at the SLAC B Factory (PEP-II). This detector is called DIRC, an acronym for Detection of Internally Reflected Cherenkov (Light). This paper will discuss the construction, operation and performance of the BABAR DIRC in detail
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Low noise PWC cathode readout system
A system has been developed, primarily to detect the induced charge deposited on PWC cathodes, which is versatile, fast and has a good signal to noise ratio for signals of greater than or equal to 10/sup -14/ Coulomb input. The amplifier system, which is completely separated from the detector by 95 ..cap omega.. coaxial cables, is followed by a new charge integrating, version of the SHAM/BADC system developed at SLAC. This SHAM IV system is CAMAC based, allowing for computer calibration of the entire system from amplifier through ADC
(1) CHARGE DIVISION USING CARBON FILAMENTS FOR OBTAINING COORDINATE INFORMATION FROM DETECTION OF SINGLE ELECTRONS’
Seven micron diameter Carbon filaments forming the anode of a multiwire proportional chamber have been used to detect single electrons. Charge division techniques applied to the 5cm long wire resulted in a position resolution of o/L < 2 % for a collected rignal charge of 30 fC. 1
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Test of a conceptual prototype of the total internal reflection Cherenkov imaging detector (DIRC) with cosmic muons
The DIRC is a totally internally reflecting Cherenkov imaging detector proposed for particle identification at the asymmetric e{sup +}e{sup {minus}} B factories. First test results from a conceptual prototype using cosmic muons are reported. The photo-electron yield and the single Cherenkov photon resolution at various track dip angles and positions along the radiator bar have been measured. The results are consistent with estimates and Monte-Carlo simulations
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Development of Low Noise Preamplifier for the Detection and Position Determination of Single Electrons in a Cerenkov Ring Imaging Detector by Charge Division
A preamplifier having 500 electrons noise (rms) has been developed for the detection and location of single electrons in a CRID detector at the SLD. A single channel contains preamp, RC-CR shaper, gain adjustment, driver, and calibration circuitry. Noise and linearity measurements are presented