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This note is a proposal for precise geometry parametrization of planar imaging detectors.

 

Tile ideal geometry

  • Assume that the detector image is produced by a set of tiles (a.k.a., segments, sensors, Si-pixel matrix, etc).
  • Each tile has well defined by design geometry of pixels, which does not need in separate calibration. (Uniform matrix-type geometry is preferable, but  other geometry can be handled, for example like in CSPAD 2x1 sensor)
  • Pixel center coordinate for each tile can be defined as a look-up table in its "natural" coordinate system. For example, CSPAD 2x1 tile geometry is defined as:
     (Xmin,Ymax)      ^ Y          (Xmax,Ymax)
     (0,0)            |            (0,387)
        ------------------------------
        |             |              |
        |             |              |
        |             |              |
      --|-------------+--------------|----> X
        |             |              |
        |             |              |
        |             |              |
        ------------------------------
     (184,0)          |           (184,387)
     (Xmin,Ymin)                  (Xmax,Ymin)

Optical measurements

  • Optical measurements provide 3-d coordinates of 4 corners for all tiles in the detector in some arbitrary microscope plane which coincides with detector imaging array (tiles) plane within precision of installation.
  • Tile corner coordinates do not necessarily coincide with corner pixel centers or edges.
  • Numeration of tiles should not necessarily coincide with their numeration in DAQ, but it should be done in fixed order or with indication of tile numbers:

  • Optical measurements provide a list of coordinates for all sensor points

    Tile #
    Point #X[µm]Y[µm]Y[µm]

Quality check

Quality check of optical measurement may include for each tile:

  • equity of opposite sides
  • equity of diagonals
  • equity of tilt angles for all sides
  • tile flatness in 3-d

Position of tiles in the detector

Detector pixels' geometry in 3-d can be unambiguously derived from

  • the list of coordinates obtained in optical measurements and 
  • tile ideal geometry

The tile location and orientation can be defined by the table of records

Tile #Xc[µm]Yc[µm]Yc[µm]Rotation angle [degree]Tilt in X-Y[degree]Tilt in Y-Z[degree]Tilt in X-Z[degree]

where

  • Tile # –  Tile number in DAQ
  • Xc, Yc, and Zc[µm] –  tile center coordinates in micrometers
  • Rotation angle [degree] – tile rotation angle in X-Y detector plane in degrees, presumably it is N*90, where N=0,1,2,3
  • Tilt in X-Y,  Y-Z,  X-Z[degree] – small angles for correction of the tile orientation w.r.t. design rotation angle

Tile center coordinates are defined as an average over 4 corners.

Tilt angles are projected angles of the tile sides on relevant planes. Each angle is evaluated as an averaged angle for 2 sides.

Summary

Suggested method for imaging detector geometry description provides simple and unambiguous way of pixel coordinate parametrization. This method utilizes all available information from optical measurement and design of the detector and tiles. All geometry parameters are extracted without fitting technique and presented by natural intuitive way.

 

 

 

 

 

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