Difference between revisions of "DV MollerTrackRecon"
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This shows how the coordinates are transformed and explains the validity of using the TBTracking information to obtain a phi angle in the lab frame. | This shows how the coordinates are transformed and explains the validity of using the TBTracking information to obtain a phi angle in the lab frame. | ||
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[[File:Range4.png]] | [[File:Range4.png]] | ||
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[[DV_RunGroupC_Moller#Moller_Track_Reconstruction]] | [[DV_RunGroupC_Moller#Moller_Track_Reconstruction]] |
Revision as of 17:58, 8 November 2015
Moller events WITH Solenoid
LUND file with Moller events (with origin of coordinates occurring at each event)
2 1 1 1 1 0 0.000563654 3.53715 0 6.2002 1 -1 1 11 0 0 0.69 -2.4999 10993.7998 10993.80 0.000511 0 0 0 2 -1 1 11 0 0 -0.69 2.4999 6.5852 7.08 0.000511 0 0 0
From a GEMC run WITH the Solenoid ced is used to obtain the information from the eg12_rec.ev file.
We take the phi angle from the Simulated Event momentum as the initial phi angle. The obtain the final phi angle, we can look at the final position of the electron with in the drift chambers.
Examining the position from Timer Based Tracking, we can see that after rotations about first the y-axis, then the z-axis transforms from the detector frame of reference to the lab frame of reference.
Euler Angles
We can use the Euler angles to perform the rotations.
For the rotation about the y axis.
And the rotation about the z axis.
Transformation Matrix
The Euler angles can be applied using a transformation matrix
For event #29, in sector 3, the location of the first interaction is given by
Converting -25 degrees to radians,
which is the rotation the detectors are rotated from the y axis.
Finding
since "sector -1" =3-1=2*60=120 degrees
This shows how the coordinates are transformed and explains the validity of using the TBTracking information to obtain a phi angle in the lab frame.