9-12 February 2010
GSI Helmholtzzentrum für Schwerionenforschung GmbH
Europe/Berlin timezone

TimTrack A new algorithm for the tracking of particles with timing detectors

11 Feb 2010, 12:50
20m
Hörsaal GSI (GSI Helmholtzzentrum für Schwerionenforschung GmbH)

Hörsaal GSI

GSI Helmholtzzentrum für Schwerionenforschung GmbH

Planckstr. 1 64291 Darmstadt Germany

Speaker

Prof. Juan A. Garzon (University of Santiago de Compostela)

Description

TimTrack is a tracking algorithm to be used with timing detectors, being specially suitable to work with timing RPCs or fast scintillators. It is being developed in the framework of the Trasgo (TRAck reconStructinG mOdule) project aiming the development of a detector able to work stand-alone with full tracking and timing capabilities. TimTrack works directly with the primary information provided by the detectors, either coordinates or time, without any time to coordinate reduction. All the detectors must be synchronized and refered to the same zero time. The algorithm estimates sets of six parameters of the particles: 2 coordinates, 2 slopes, the velocity and the time at a given reference plane. This set of parameters, called SAETA (SmAllest sEt of daTA), is the basic unit of the method. It provides also the complete variance-covariance matrix with 21 independent coefficients allowing a very accurate statistical analysis of the results both for track quality test and for the efficient rejection of outliers. For most of the more common timing detector layouts TimTrack leads to linear equations allowing to use a very simple matrix formalism providing a very fast solution. In this cases, a saeta s may be obtained directly from the measured through an equation of the type: s = K^-1 a where K is a 6x6 matrix (called configuration matrix) that depends only on the detector layout) and a is a 6 dimension vector that can be obtained as a linear combination of the measured data. The matrix formalism is very easy to be implemented in some kind of electronic components or embedded processor placed in an acquisition board offering online timing and tracking abilities. The analytical solutions for several layouts of detectors together with their numerical results will be given.

Primary author

Prof. Juan A. Garzon (University of Santiago de Compostela)

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