Large scale x-ray images taken with the Medipix1 chip - PowerPoint PPT Presentation

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Large scale x-ray images taken with the Medipix1 chip

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Physikalisches Institut, Abt. 4. Universit t Erlangen-N rnberg. Workgroup SPOC ... sensor layer bump-bonded to the pixelated read-out electronics chip ... – PowerPoint PPT presentation

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Title: Large scale x-ray images taken with the Medipix1 chip


1
Large scale x-ray images taken with the Medipix1
chip
Karl-Friedrich Pfeiffer Physikalisches Institut,
Abt. 4 Universität Erlangen-Nürnberg Workgroup
SPOC
Single PhOton Counting
2
Overview
  • The Medipix1 chip
  • Experimental setup
  • Large Images 1 'Move and Tile'Measurement and
    Simulation
  • Large Images 2 'Tile and Move'Measurement and
    Simulation
  • DQE Measurements
  • Summary

3
The Medipix1 chip
  • Pixelated solid state hybrid detector for single
    photon counting
  • 64 x 64 Pixel, size 170mm Þ active area 10.88 x
    10.88 mm2
  • Semiconductor sensor layer bump-bonded to the
    pixelated read-out electronics chip
  • Sensor layer e.g. 300mm Si, but other materials
    (GaAs, Cd(Z)Te...) can be used as well
  • Developed within the framework of the Medipix1
    collaboration

4
Experimental setup
  • Complete imaging process controlled by computer 1
  • Data acquisition done with Medisoft software
    (developed in the Medipix collaboration)
  • (Semi-)automated processing of acquired data

5
Large Images 1 'Move and Tile'
  • Make single exposure with single detector
  • Move detector to next position
  • Make another exposure
  • Repeat until the whole area is covered
  • Merge all single exposures to get one large tiled
    image

6
Large Images 1 Measurement
5x5 single exposures, 10 pixels overlap
7
Comparison Measurement - Simulation
Object Siemensstern 0.05mm Pb in 2mm PMMA Ø
4.5cm
  • Contrast ratio
  • measurement -simulation
  • 0.996
  • 0.978
  • Contrast Pb -Air0.965
  • Contrast Pb-PMMA0.941
  • Contrast Pb -Air0.969
  • Contrast Pb-PMMA0.962

8
Large Images 2 'Tile and Move'
  • Tile several detectors to make an array
  • Take large picture (with gaps)
  • Move array to next position
  • Take another picture
  • Repeat to cover all gaps
  • Merge pictures to get one large image without
    gaps and with high photon statistics

9
Large Images 2 Measurement
10
Comparison Measurement - Simulation
Object Siemensstern 0.05mm Pb in 2mm PMMA Ø
4.5cm
  • Contrast ratio
  • measurement -simulation
  • 0.988
  • 0.964
  • Contrast Pb -Air0.954
  • Contrast Pb-PMMA0.928
  • Contrast Pb -Air0.966
  • Contrast Pb-PMMA0.963

11
Improved 'Tile and Move'
  • If it is possible to tile several detecors
    without gaps (e.g. with the Medipix2 chip)
  • Þ Tile detectors to get detector bars'
    two pictures are sufficient to cover all
    gaps
  • Þ even faster less dose!

12
DQE Definition
  • DQE Detective Quantum Efficiency
  • SNR Signal-to-Noise-Ratio
  • in SNR of incoming radiation field ( ?N )
  • out SNR of the image
  • f f(x,y) Spatial frequency

13
Calculation of the DQE
? System gain factor MTF Modulation Transfer
Function NPS Noise Power Spectrum ltEgt Mean
photon energy ?0 Incoming energy fluence
14
DQE Measurement
  • MTF(f) measurementline pair phantom
  • NPSout measurementflat field images
  • ... some lenghty calculations ...
  • Þ DQE(f)

15
MTF results
16
First DQE results
17
Summary
  • There are basically two ways to get large field
    images
  • 1) 'Move and Tile' single detector, flexible,
    but takes quite a long time and high dose Þ 'Lab
    Method'
  • 2) 'Tile and Move' quite fast, but requires
    several detectors Þ 'Standard Imaging Method'
  • The MTF and DQE of a Medipix1 chip with a 300mm
    Si sensor layer was determined
  • We are looking forward to the Medipix2 chip

18
Thanks to
  • Prof. G. Anton1
  • Ch. Bert1 D. Niederlöhner1
  • J. Giersch1
  • M. Hoheisel2 L. Bätz2 (for the DQE
    calculations)
  • Medipix Collaboration
  • B. Mikulec3

1Universität Erlangen 2 Siemens 3 CERN
19
Phantoms used
Siemensstern
Line pair phantom
20
Background picture blown fuse
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