Electron Identification in Belle

K. Hanagaki; H. Kakuno; H. Ikeda; T. Iijima; and T. Tsukamoto

arXiv:hep-ex/0108044·hep-ex·November 26, 2008

Electron Identification in Belle

K. Hanagaki, H. Kakuno, H. Ikeda, T. Iijima, and T. Tsukamoto

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TL;DR

This paper details the electron identification techniques used in the Belle experiment, achieving high efficiency and low fake rates through a likelihood-based method utilizing multiple detector inputs.

Contribution

It introduces a likelihood approach for electron identification that combines data from various detectors in the Belle experiment, demonstrating improved performance.

Findings

01

Electron ID efficiency of 92.4% with low fake rate

02

Effective in the 1.0-3.0 GeV/c momentum range

03

Utilizes electromagnetic calorimeter, drift chamber, and Cherenkov counters

Abstract

We report on electron identification methods and their performance in the Belle experiment at the KEK-B asymmetric B-Factory $e^{+} e^{-}$ storage ring. Electrons are selected using a likelihood approach that takes information from the electromagnetic calorimeter, the central drift chamber, and the silica aerogel Cherenkov counters as input. We achieve an electron identification efficiency of $(92.4 \pm 0.4)$ with a $π^{\pm}$ fake rate of $(0.25 \pm 0.02)$ for the momentum range between 1.0 GeV/ $c$ and 3.0 GeV/ $c$ in laboratory frame.

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