Monte Carlo Evaluation of a New Track-Finding Method for the VENUS Muon Detector

Details Monte Carlo Evaluation of a New Track-Finding Method for the VENUS Muon Detector Monte Carlo Evaluation of a New Track-Finding Method for the VENUS Muon Detector

Oct 1989

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989jajap..28.1981a&link_type=abstract

Japanese Journal of Applied Physics, Volume 28, Issue 10, pp. 1981 (1989).

Physics

1

Scientific paper

A new method of finding a track is devised for the VENUS muon detector composed of eight-cell drift-tube modules, each cell having a rectangular cross section of 5× 7 cm2. The new method, in which fourth-order equations are solved by the Ferarri-Cardano method, is especially powerful for a track having a large incident angle with respect to the line normal to the anode-wire plane of a drift tube, compared to the presently used method in which a track is determined by the intersecting points of an equi-drift-distance circle and the anode-wire plane. Cosmic-ray test data for the forward-backward part muon detector support these simulation results.

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