Imaging Cherenkov photon emissions in radiotherapy with a Geiger-mode gated quanta image sensor

P. Brůža; A. Pétusseau; S. Tisa; M. Jermyn; L. A. Jarvis; D. J. Gladstone; B. W. Pogue

doi:10.1364/OL.44.004546

Optics Letters
Vol. 44,
Issue 18,
pp. 4546-4549
(2019)
•https://doi.org/10.1364/OL.44.004546

Imaging Cherenkov photon emissions in radiotherapy with a Geiger-mode gated quanta image sensor

P. Brůža, A. Pétusseau, S. Tisa, M. Jermyn, L. A. Jarvis, D. J. Gladstone, and B. W. Pogue

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P. Brůža, A. Pétusseau, S. Tisa, M. Jermyn, L. A. Jarvis, D. J. Gladstone, and B. W. Pogue, "Imaging Cherenkov photon emissions in radiotherapy with a Geiger-mode gated quanta image sensor," Opt. Lett. 44, 4546-4549 (2019)

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Abstract

The emission of Cherenkov photons from human and animal tissue can be observed during clinical x-ray or particle beam irradiation. However, imaging this weak emission with the necessary single-photon sensitivity in the clinical room is challenging because of milliwatt-level ambient room lighting and the presence of stray high-energy radiation. In this Letter, we demonstrate, to the best of our knowledge, the first Cherenkov imaging with a time-gated quanta image sensor employing a large single-photon avalanche diode (SPAD) array. Detecting single Cherenkov photons was possible with high photon avalanche gain, fast temporal gating, and moderately high $\sim 7 %$ photon detection probability. Single-bit digitization and active SPAD quenching enabled stray x-ray noise suppression and photon-noise-limited imaging in a clinical environment. This type of imaging allows the knowledge of location, shape, and surface dose of the therapeutic beam radiotherapy with the stability of solid state-based detection.

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Optics Letters