Revision 2 as of 2008-02-08 09:07:02

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Predrag's PhotonFinder

<!> everything has been simulated / tested / optimized for LDC00 <!> It assumes low energetic Photons (restricted to ECAL!), coming from the IP (input parameter to th cluster direction) ---

Steering

An exmaple steering file is marlinKIT.xml, which was used by Predrag for LDC00, as comparison of his method with other PFlow Algorhythms.

PGDB

The PhotonFinder needs the Physical Geometrical database (PGDB) for fast acces to properties of the subdetectors. It has to be adopted to the chosen detector model.

Superhit

The basic class for this photon finder.

MarlinMath

contains all functions needed from Superhit to calculate distances, energies and so on.


Before getting started:

KALIBRATOR

needed to get the calibration values that determine the true cluster energy, in dependence of the cluster level: E_cluster [level ] = a*E_true + b with E_min < E_true < E_max

Is needed as input for KIT ---

KITdev

The main program where all ends meet, searching for em-showers in the ECAL. It depends on the Physical Geometrical Data Base PGDB, the Superhit class, and mathematical operations defined in MarlinMath. The required calibration values can be obtained from KALIBRATOR. KIT is working on the MIP scale. Each cluster level has to be tuned. As an output you get # clusters, energy in cluster, hits in cluster, estimated true energy in cluster, position, direction, and distance to other clusters.