Per-pixel energy calibration of photon counting detectors

A. Atharifard; J. L. Healy; B. P. Goulter; M. Ramyar; L. Vanden Broeke; M. F. Walsh; C. C. Onyema; R. K. Panta; R. Aamir; D. J. Smithies; R. Doesburg; M. Anjomrouz; M. Shamshad; S. Bheesette; K. Rajendran; N. J.A. De Ruiter; D. Knight; A. Chernoglazov; H. Mandalika; S. T. Bell; C. J. Bateman; A. P.H. Butler; P. H. Butler

doi:10.1088/1748-0221/12/03/C03085

Per-pixel energy calibration of photon counting detectors

A. Atharifard, J. L. Healy, B. P. Goulter, M. Ramyar, L. Vanden Broeke, M. F. Walsh, C. C. Onyema, R. K. Panta, R. Aamir, D. J. Smithies, R. Doesburg, M. Anjomrouz, M. Shamshad, S. Bheesette, K. Rajendran, N. J.A. De Ruiter, D. Knight, A. Chernoglazov, H. Mandalika, S. T. BellC. J. Bateman, A. P.H. Butler, P. H. Butler

Radiology

Research output: Contribution to journal › Article › peer-review

Abstract

Energy resolving performance of spectral CT systems is influenced by the accuracy of the detector's energy calibration. Global energy calibration maps a given threshold to the average energy response of all pixels of the detector. Variations arising from CMOS manufacturing processes and properties of the sensor cause different pixels to respond differently to photons of the same energy. Threshold dispersion adversely affects spectral imaging by degrading energy resolution, which contributes to blurring of the energy information. In this paper, we present a technique for per-pixel energy calibration of photon-counting x-ray detectors (PCXDs) that quantifies the energy response of individual pixels relative to the average response. This technique takes advantage of the measurements made by an equalized chip. It uses a known global energy map to quantify the effect of threshold dispersion on the energy response of the detector pixels across an energy range of interest. The proposed technique was assessed using a MARS scanner with an equalized Medipix3RX chip flip-bonded to 2 mm thick CdTe semiconductor crystal at a pitch of 110 μm. Measurements were made of characteristic x-rays of a molybdenum foil. Results were compared between the case that the global calibration was used on its own and the case of using it in conjunction with our per-pixel calibration technique. The proposed technique quantified up to 1.87 keV error in energy response of 100 pixels of a selected region of interest (ROI). It made an improvement of 28.3% in average FWHM. The additional information provided by this per-pixel calibration technique can be used to improve spectral reconstruction.

Original language	English (US)
Article number	C03085
Journal	Journal of Instrumentation
Volume	12
Issue number	3
DOIs	https://doi.org/10.1088/1748-0221/12/03/C03085
State	Published - Mar 27 2017

Keywords

Computerized Tomography (CT) and Computed Radiography (CR)
Data processing methods
Detector modelling and simulations II (electric fields, charge transport, multiplication and induction, pulse formation, electron emission, etc)
Image filtering

ASJC Scopus subject areas

Mathematical Physics
Instrumentation

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10.1088/1748-0221/12/03/C03085

Cite this

Atharifard, A., Healy, J. L., Goulter, B. P., Ramyar, M., Vanden Broeke, L., Walsh, M. F., Onyema, C. C., Panta, R. K., Aamir, R., Smithies, D. J., Doesburg, R., Anjomrouz, M., Shamshad, M., Bheesette, S., Rajendran, K., De Ruiter, N. J. A., Knight, D., Chernoglazov, A., Mandalika, H., ... Butler, P. H. (2017). Per-pixel energy calibration of photon counting detectors. Journal of Instrumentation, 12(3), Article C03085. https://doi.org/10.1088/1748-0221/12/03/C03085

Atharifard, A, Healy, JL, Goulter, BP, Ramyar, M, Vanden Broeke, L, Walsh, MF, Onyema, CC, Panta, RK, Aamir, R, Smithies, DJ, Doesburg, R, Anjomrouz, M, Shamshad, M, Bheesette, S, Rajendran, K, De Ruiter, NJA, Knight, D, Chernoglazov, A, Mandalika, H, Bell, ST, Bateman, CJ, Butler, APH & Butler, PH 2017, 'Per-pixel energy calibration of photon counting detectors', Journal of Instrumentation, vol. 12, no. 3, C03085. https://doi.org/10.1088/1748-0221/12/03/C03085

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abstract = "Energy resolving performance of spectral CT systems is influenced by the accuracy of the detector's energy calibration. Global energy calibration maps a given threshold to the average energy response of all pixels of the detector. Variations arising from CMOS manufacturing processes and properties of the sensor cause different pixels to respond differently to photons of the same energy. Threshold dispersion adversely affects spectral imaging by degrading energy resolution, which contributes to blurring of the energy information. In this paper, we present a technique for per-pixel energy calibration of photon-counting x-ray detectors (PCXDs) that quantifies the energy response of individual pixels relative to the average response. This technique takes advantage of the measurements made by an equalized chip. It uses a known global energy map to quantify the effect of threshold dispersion on the energy response of the detector pixels across an energy range of interest. The proposed technique was assessed using a MARS scanner with an equalized Medipix3RX chip flip-bonded to 2 mm thick CdTe semiconductor crystal at a pitch of 110 μm. Measurements were made of characteristic x-rays of a molybdenum foil. Results were compared between the case that the global calibration was used on its own and the case of using it in conjunction with our per-pixel calibration technique. The proposed technique quantified up to 1.87 keV error in energy response of 100 pixels of a selected region of interest (ROI). It made an improvement of 28.3% in average FWHM. The additional information provided by this per-pixel calibration technique can be used to improve spectral reconstruction.",

keywords = "Computerized Tomography (CT) and Computed Radiography (CR), Data processing methods, Detector modelling and simulations II (electric fields, charge transport, multiplication and induction, pulse formation, electron emission, etc), Image filtering",

author = "A. Atharifard and Healy, {J. L.} and Goulter, {B. P.} and M. Ramyar and {Vanden Broeke}, L. and Walsh, {M. F.} and Onyema, {C. C.} and Panta, {R. K.} and R. Aamir and Smithies, {D. J.} and R. Doesburg and M. Anjomrouz and M. Shamshad and S. Bheesette and K. Rajendran and {De Ruiter}, {N. J.A.} and D. Knight and A. Chernoglazov and H. Mandalika and Bell, {S. T.} and Bateman, {C. J.} and Butler, {A. P.H.} and Butler, {P. H.}",

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doi = "10.1088/1748-0221/12/03/C03085",

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T1 - Per-pixel energy calibration of photon counting detectors

AU - Atharifard, A.

AU - Healy, J. L.

AU - Goulter, B. P.

AU - Ramyar, M.

AU - Vanden Broeke, L.

AU - Walsh, M. F.

AU - Onyema, C. C.

AU - Panta, R. K.

AU - Aamir, R.

AU - Smithies, D. J.

AU - Doesburg, R.

AU - Anjomrouz, M.

AU - Shamshad, M.

AU - Bheesette, S.

AU - Rajendran, K.

AU - De Ruiter, N. J.A.

AU - Knight, D.

AU - Chernoglazov, A.

AU - Mandalika, H.

AU - Bell, S. T.

AU - Bateman, C. J.

AU - Butler, A. P.H.

AU - Butler, P. H.

PY - 2017/3/27

Y1 - 2017/3/27

N2 - Energy resolving performance of spectral CT systems is influenced by the accuracy of the detector's energy calibration. Global energy calibration maps a given threshold to the average energy response of all pixels of the detector. Variations arising from CMOS manufacturing processes and properties of the sensor cause different pixels to respond differently to photons of the same energy. Threshold dispersion adversely affects spectral imaging by degrading energy resolution, which contributes to blurring of the energy information. In this paper, we present a technique for per-pixel energy calibration of photon-counting x-ray detectors (PCXDs) that quantifies the energy response of individual pixels relative to the average response. This technique takes advantage of the measurements made by an equalized chip. It uses a known global energy map to quantify the effect of threshold dispersion on the energy response of the detector pixels across an energy range of interest. The proposed technique was assessed using a MARS scanner with an equalized Medipix3RX chip flip-bonded to 2 mm thick CdTe semiconductor crystal at a pitch of 110 μm. Measurements were made of characteristic x-rays of a molybdenum foil. Results were compared between the case that the global calibration was used on its own and the case of using it in conjunction with our per-pixel calibration technique. The proposed technique quantified up to 1.87 keV error in energy response of 100 pixels of a selected region of interest (ROI). It made an improvement of 28.3% in average FWHM. The additional information provided by this per-pixel calibration technique can be used to improve spectral reconstruction.

AB - Energy resolving performance of spectral CT systems is influenced by the accuracy of the detector's energy calibration. Global energy calibration maps a given threshold to the average energy response of all pixels of the detector. Variations arising from CMOS manufacturing processes and properties of the sensor cause different pixels to respond differently to photons of the same energy. Threshold dispersion adversely affects spectral imaging by degrading energy resolution, which contributes to blurring of the energy information. In this paper, we present a technique for per-pixel energy calibration of photon-counting x-ray detectors (PCXDs) that quantifies the energy response of individual pixels relative to the average response. This technique takes advantage of the measurements made by an equalized chip. It uses a known global energy map to quantify the effect of threshold dispersion on the energy response of the detector pixels across an energy range of interest. The proposed technique was assessed using a MARS scanner with an equalized Medipix3RX chip flip-bonded to 2 mm thick CdTe semiconductor crystal at a pitch of 110 μm. Measurements were made of characteristic x-rays of a molybdenum foil. Results were compared between the case that the global calibration was used on its own and the case of using it in conjunction with our per-pixel calibration technique. The proposed technique quantified up to 1.87 keV error in energy response of 100 pixels of a selected region of interest (ROI). It made an improvement of 28.3% in average FWHM. The additional information provided by this per-pixel calibration technique can be used to improve spectral reconstruction.

KW - Computerized Tomography (CT) and Computed Radiography (CR)

KW - Data processing methods

KW - Detector modelling and simulations II (electric fields, charge transport, multiplication and induction, pulse formation, electron emission, etc)

KW - Image filtering

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JO - Journal of Instrumentation

JF - Journal of Instrumentation

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ER -

Per-pixel energy calibration of photon counting detectors

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Keywords

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