Title :
Study of various anode pad readout geometries in a GEM-TPC
Author :
Kaminski, Jochen ; Kappler, Steffen ; Ledermann, Bernhard ; Müller, Thomas ; Ronan, Michael
Author_Institution :
Inst. fur Exp. Kernphys., Karlsruhe Univ.
Abstract :
The use of a time projection chamber (TPC) based on gas electron multipliers (GEMs) as a central tracker in particle-physics experiments is being studied by several groups. Compared to the conventional multi-wire readout this combination offers a number of advantages such as intrinsically suppressed ion feedback, high granularity and decoupling of gas amplification stage and readout geometry. The fast signal of GEMs and the reduction of the transverse diffusion in parallel magnetic fields give a good spatial resolution. However, for short drift distances and high magnetic fields, this may lead to signal sizes much narrower than the pad size and thus to a degradation of the spatial resolution. We have studied the use of different pad geometries to improve the performance of the detector in the small diffusion limit
Keywords :
electron multiplier detectors; particle tracks; readout electronics; time projection chambers; anode pad readout geometries; central tracker; diffusion limit; drift distances; gas amplification stage; gas electron multipliers; magnetic fields; multiwire readout; parallel magnetic fields; particle-physics experiments; spatial resolution; time projection chamber; transverse diffusion; Anodes; Atherosclerosis; Degradation; Detectors; Electron multipliers; Energy measurement; Geometry; Magnetic fields; Particle tracking; Spatial resolution; Gas electron multipliers (GEMs); pad structure; spatial resolution; time projection chamber (TPC);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2005.862797
