• Title/Summary/Keyword: fiber-optic dosimeter

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Measurement of Relative Depth dose of Therapeutic Photon Beam Using One-Dimensional Fiber-Optic Phantom Dosimeter (1차원 광섬유 팬텀선량계를 이용한 치료용 광자선의 피부 및 선량보강영역에서 상대선량 측정)

  • Moon, Jin-Soo;Jang, Kyoung-Won;Yoo, Wook-Jae;Seo, Jeong-Ki;Park, Jang-Yeon;Cho, Young-Ho;Lee, Bong-Soo
    • Journal of Sensor Science and Technology
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    • v.20 no.2
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    • pp.96-101
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    • 2011
  • In this study, we fabricated a fiber-optic phantom dosimeter by arraying square type of plastic optical fibers in a PMMA phantom for measuring relative depth doses of therapeutic photon beams. To minimize the cross-talk between fiber-optic dosimeters, we selected appropriate septum by measuring leaked scintillating lights according to the various kinds of septa. In addition, we measured percentage depth doses of 6, 15 MV photon beams using a fiber-optic phantom dosimeter.

Measurement of relative dose irradiated from a Co-60 source using a scintillating fiber-optic dosimeter (광섬유 방사선량계를 이용한 Co-60 방사선원으로부터 조사되는 상대선량측정)

  • Jang, Kyoung-Won;Cho, Dong-Hyun;Yoo, Wook-Jae;Seo, Jeong-Ki;Heo, Ji-Yeon;Lee, Bong-Soo;Shin, Sang-Hun;Park, Byung-Gi;Kim, Sin
    • Journal of Sensor Science and Technology
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    • v.19 no.1
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    • pp.52-57
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    • 2010
  • In this study, we have fabricated a scintillating fiber-optic dosimeter for a radiotherapy dosimetry. And ${\gamma}$-rays generated by a Co-60 are measured using a scintillating fiber-optic dosimeter and percent depth dose curves are obtained according to the different depths of solid water phantoms. Also, Cerenkov radiations generated by primary or secondary electrons are measured at different depths of water phantom using a background optical fiber.

Measurement of Skin Dose and Percentage Depth Does in Build-up Region Using a Fiber-optic Dosimeter (광섬유 방사선량계를 이용한 선량보강 영역에서의 심부선량 백분율과 피부 선량률 측정)

  • Cho, Dong-Hyun;Jang, Kyoung-Won;Yoo, Wook-Jae;Seo, Jeong-Ki;Heo, Ji-Yeon;Lee, Bong-Soo;Cho, Young-Ho
    • Korean Journal of Optics and Photonics
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    • v.21 no.1
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    • pp.16-20
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    • 2010
  • In this study, we have fabricated a fiber-optic dosimeter using an organic scintillator and a plastic optical fiber. The dosimeter measure skin dose and percentage depth dose in a build-up region for an incident high energy photon beam. The scintillating light generated in the organic sensor probe embedded in a solid water phantom is guided by 30 m plastic optical fiber to a light-measuring device such as a PMT or an electrometer. In addition, using a fiber-optic dosimeter or a GAFCHROMIC EBT film, skin dose and percentage depth dose in the build-up region are measured and compared.

Measurements and comparisons of PDDs using ion chamber and fiber-optic dosimeter irradiated by high energy photon beam (고 에너지 X-선 조사에 의한 광섬유 방사선량계와 이온 전리함의 심부선량 백분율 측정 및 비교)

  • Cho, Dong-Hyun;Jang, Kyoung-Won;Yoo, Wook-Jae;Seo, Jeong-Ki;Heo, Ji-Yeon;Lee, Bong-Soo;Cho, Young-Ho;Moon, Joo-Hyun;Park, Byung-Gi
    • Journal of Sensor Science and Technology
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    • v.18 no.2
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    • pp.173-178
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    • 2009
  • In this study, we have fabricated a fiber-optic dosimeter using an organic scintillator and a plastic optical fiber for measuring percentage depth dose with high energy X-ray beam. The scintillating light generated in organic sensor probe embedded in a solid water are guided by 20 m plastic optical fiber to the light-measuring device such as a photodiode- amplifier system. Using a fiber-optic dosimeter and an ion chamber, percentage depth dose curves are measured with 6 and 15 MV energies of X-ray beam whose field sizes are $2\;cm\;{\times}\;2\;cm$ and $10\;cm\;{\times}\;10\;cm$.

Fabrication and Characterization of a One-dimensional Fiber-optic Dosimeter for Electron Beam Therapy Dosimetry (치료용 전자선 계측을 위한 1차원 광섬유 방사선량계의 제작 및 특성분석)

  • Jang, Kyoung-Won;Cho, Dong-Hyun;Shin, Sang-Hun;Yoo, Wook-Jae;Jun, Jae-Hun;Lee, Bong-Soo;Moon, Joo-Hyun;Park, Byung-Gi
    • Progress in Medical Physics
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    • v.19 no.4
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    • pp.285-290
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    • 2008
  • In this study, we have fabricated a one-dimensional fiber-optic dosimeter for electron beam therapy dosimetry. Each fiber-optic dosimeter has an organic scintillator with a plastic optical fiber and it is embedded and arrayed in the plastic phantom to measure one-dimensional high energy electron beam profile of clinical linear accelerator. The scintillating lights generated from each sensor probe are guided by plastic optical fibers to the multi-channel photodiode amplifier system. We have measured one-dimensional electron beam profiles in a PMMA phantom according to different field sizes and energies of electron beam. Also, the isodose and three-dimensional percent depth dose curves in a PMMA phantom are obtained using a one-dimensional fiber-optic dosimeter with different electron beam energies.

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Fabrication and Optimization of a Fiber-optic Dosimeter for Proton Beam Therapy Dosimetry (의료용 양성자선 계측을 위한 광섬유 방사선량계의 제작 및 최적화)

  • Jang, Kyoung-Won;Cho, Dong-Hyun;Yoo, Wook-Jae;Seo, Jeong-Ki;Lee, Bong-Soo;Hwang, Eui-Jung;Shin, Dong-Ho;Park, Sung-Yong
    • Progress in Medical Physics
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    • v.21 no.1
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    • pp.29-34
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    • 2010
  • In this study, we have fabricated a fiber-optic dosimeter for a proton beam therapy dosimetry. We have measured scintillating lights with the various kinds of organic scintillators and selected the BCF-12 as a sensor-tip material due to its highest light output and peak/plateau ratio. To determine the optimum diameter of BCF-12, we have measured scintillating lights according to the energy losses of proton beams in a water phantom. Also, we determined the adequate length of organic scintillator by measuring scintillating lights according to the incident angles of proton beam. Using an optimized fiber-optic dosimeter, we have measured scintillating lights according to the dose rates and monitor units of proton accelerator.