Koki Sueoka scite author profile

Imaging of nuclear gamma-ray lines in the 1–10 MeV range is far from being established in both medical and physical applications. In proton therapy, 4.4 MeV gamma rays are emitted from the excited nucleus of either 12C* or 11B* and are considered good indicators of dose delivery and/or range verification. Further, in gamma-ray astronomy, 4.4 MeV gamma rays are produced by cosmic ray interactions in the interstellar medium, and can thus be used to probe nucleothynthesis in the universe. In this paper, we present a high-precision image of 4.4 MeV gamma rays taken by newly developed 3-D position sensitive Compton camera (3D-PSCC). To mimic the situation in proton therapy, we first irradiated water, PMMA and Ca(OH)2 with a 70 MeV proton beam, then we identified various nuclear lines with the HPGe detector. The 4.4 MeV gamma rays constitute a broad peak, including single and double escape peaks. Thus, by setting an energy window of 3D-PSCC from 3 to 5 MeV, we show that a gamma ray image sharply concentrates near the Bragg peak, as expected from the minimum energy threshold and sharp peak profile in the cross section of 12C(p,p)12C*.

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Ultracompact Compton camera for innovative gamma-ray imaging

Kataoka

Kishimoto

Taya

et al. 2018

Nuclear Instruments and Methods in Physics Research Section A:

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High-precision compton imaging of 4.4 MeV prompt gamma-ray toward an on-line monitor for proton therapy

Mochizuki

Kataoka

Koide

et al. 2019

Nuclear Instruments and Methods in Physics Research Section A:

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Spatially resolved measurement of wideband prompt gamma-ray emission toward on-line monitor for the future proton therapy

Koide

Kataoka

Taya

et al. 2018

Nuclear Instruments and Methods in Physics Research Section A:

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Koki Sueoka

Development of a compact scintillator-based high-resolution Compton camera for molecular imaging

Precision imaging of 4.4 MeV gamma rays using a 3-D position sensitive Compton camera

Ultracompact Compton camera for innovative gamma-ray imaging

High-precision compton imaging of 4.4 MeV prompt gamma-ray toward an on-line monitor for proton therapy

Spatially resolved measurement of wideband prompt gamma-ray emission toward on-line monitor for the future proton therapy

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