Chan-Hyeong Kim scite author profile

Chan-Hyeong Kim

5Publications

21Citation Statements Received

24Citation Statements Given

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Hanyang University

Publications

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Monte Carlo modeling of a High‐Sensitivity MOSFET dosimeter for low‐ and medium‐energy photon sources

Wang

Kim

2004

Medical Physics

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Metal-oxide-semiconductor field effect transistor (MOSFET) dosimeters are increasingly utilized in radiation therapy and diagnostic radiology. While it is difficult to characterize the dosimeter responses for monoenergetic sources by experiments, this paper reports a detailed Monte Carlo simulation model of the High-Sensitivity MOSFET dosimeter using Monte Carlo N-Particle (MCNP) 4C. A dose estimator method was used to calculate the dose in the extremely thin sensitive volume. Efforts were made to validate the MCNP model using three experiments: (1) comparison of the simulated dose with the measurement of a Cs-137 source, (2) comparison of the simulated dose with analytical values, and (3) comparison of the simulated energy dependence with theoretical values. Our simulation results show that the MOSFET dosimeter has a maximum response at about 40 keV of photon energy. The energy dependence curve is also found to agree with the predicted value from theory within statistical uncertainties. The angular dependence study shows that the MOSFET dosimeter has a higher response (about 8%) when photons come from the epoxy side, compared with the kapton side for the Cs-137 source.

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Development of the Reference Korean Female Voxel Phantom

Ham¹,

Cho²,

Yeom³

et al. 2012

Journal of Radiation Protection and Research

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The objective of this study is for development of the reference Korean female phantom, HDRK-Woman. The phantom was constructed by adjusting a Korean woman voxel phantom to the Reference Korean data. The Korean woman phantom had been developed based on the high-resolution color slice images obtained from an adult Korean female cadaver. There were a total of 39 organs including the 27 organs specified in ICRP 103 for effective dose calculation. The voxel resolution of the phantom was 1.976×1.976×2.0619 mm 3 and the voxel array size is 261×109×825 in the x, y and z directions.Then, the voxel resolution was changed to 2.0351×2.0351×2.0747 mm 3 for adjustment of the height and total bone mass of the phantom to the Reference Korean data. Finally, the internal organs and tissue were adjusted using in-house software program developed for 3D volume adjustment of the organs and tissue. The effective dose values of HDRK phantoms were calculated for broad parallel photon beams using MCNPX Monte Carlo code and compared with those of ICRP phantoms.

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Development of Signal Processing Circuit for Side-absorber of Dual-mode Compton Camera

Seo¹,

Park²,

Park³

et al. 2012

Journal of Radiation Protection and Research

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Old and New Cross Sections

Bonanomi

Cattorini

Han

et al. 2017

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Evaluated Atomic Data: a Review of Their Validation

Bonanomi

Cattorini

Choi

et al. 2017

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Chan-Hyeong Kim

Monte Carlo modeling of a High‐Sensitivity MOSFET dosimeter for low‐ and medium‐energy photon sources

Development of the Reference Korean Female Voxel Phantom

Development of Signal Processing Circuit for Side-absorber of Dual-mode Compton Camera

Old and New Cross Sections

Evaluated Atomic Data: a Review of Their Validation

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