• Title/Summary/Keyword: 탄소막 마이크로필름

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A Study of Small Radiation Dosimeter by Using Microfilm and Carbon Elecrtode (마이크로필름과 탄소막 전극을 이용한 소형방사선측정기 개발에 관한 연구)

  • 신교철;윤형근
    • Progress in Medical Physics
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    • v.15 no.2
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    • pp.59-62
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    • 2004
  • We developed very small parallel plate radiation detector by using our existing experience of mating radiation dosimeter and capability of analyzing characteristics of dosimeter. The radiation detector was consisted of microfilm and carbon electrode. The detector was parallel plate type of all-filled ionization chamber. The ionization chamber had been fabricated using an acrylic plate for the air cavity and carbon coated microfilm for electrical configuration. The alr gap between two electrodes was 0.48 mm. The diameters of collect electrode and guard electrode were 3.3 mm, 5 mm respectively. The diameter of high voltage electrode was 5 mm. Nominal sensitive volume of the chamber was 0.016 ㎤. The major parameters of the chamber characteristics such as leakage current, reproducibility, dose rate effect, and polarity effect were measured. The experimental results were as followings. Leakage current was 0.1 pA. Standard deviation of reproducibility was less than 0.1%. Dose rate effect was less than 1.5%. Polarity effect was less than 2.4%. These data were comparable to those of commercially available dosimetric system for QA-purpose. As the result, we found that the radiation detector consisting of the ionization chamber, microfilm and carbon electrode, was satisfactory for the purpose of the small field dosimetry in size and characteristics. In the future, We will try to refine the dosimeter for use in very small volume.

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Study for Multi Channel Radiation Detector Using of Microfilm and Carbon Electrode (탄소막 마이크로필름을 이용한 다채널 전리함 개발에 관한 연구)

  • Shin Kyo Chul;Yun Hyong Geun;Jeong Dong Hyeok;Oh Yong Kee;Kim Jhin Kee;Kim Ki Hwan;Kim Jeung Kee
    • Progress in Medical Physics
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    • v.16 no.3
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    • pp.111-115
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    • 2005
  • We have designed the multi channel detector for the quality assurance of clinical photon beams. The detector was composed of solid phantom inserted by six plane-parallel ionization chambers at different depth. The chamber as a mini plane parallel chamber was made of carbon coated microfilms. In this study the electrical characteristics of the six chambers in the solid phantom were evaluated using 6 MV photon beam. The leakage currents were less than 0.5 pA, reproducibility was less than 0.5$\%$, linearity was less than 0.5$\%$, and dose rate effect was less than 0.7$\%$. In addition the effect of dose variation from other chambers was estimated to maximum 0.8$\%$ approximately. The developed detector can be used for quality determination in output dosimetry or measurement of percentage depth dose approximately for clinical photon beam.

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