Author :
Bellwied, R. ; Beuttenmuller, R. ; Chen, W. ; DiMassimo, D. ; Dou, L. ; Dyke, H. ; French, A. ; Hall, J.R. ; Hoffman, G. ; Humanic, T. ; Kotova, A.I. ; Kotov, I.V. ; Kraner, H.W. ; Li, Z. ; Liaw, C.J. ; Lynn, D. ; Ray, L. ; Rykov, V.L. ; Pandey, S.U. ; Pr
Author_Institution :
Wayne State Univ., Detroit, MI, USA
Abstract :
The inner tracking detector of the STAR experiment at the BNL Relativistic Heavy Ion Collider will consist of a three layer barrel structure of 216 silicon drift detectors. Calculations of the two-hit resolution achievable for these detectors are presented in this article. The effects on two-hit resolution of the electronic´s response function, frequency of signal digitization and noise level are discussed
Keywords :
detector circuits; drift chambers; nuclear electronics; silicon radiation detectors; BNL Relativistic Heavy Ion Collider; RHIC; STAR Si drift detectors; Si; double particle resolution; electronic response function; inner tracking detector; noise level; signal digitization frequency; three layer barrel structure; two-hit resolution; Anodes; Clouds; Covariance matrix; Curve fitting; Detectors; Electrons; Equations; Neural networks; Noise shaping; Silicon;
