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RISS 인기검색어
- 검색키워드
- 저자 : Jungyu Yi (검색결과 6 건)
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Electron Energy Distribution for a Research Electron LINAC
Lim, Heuijin,Lee, Manwoo,Yi, Jungyu,Kang, Sang Koo,Kim, Me Young,Jeong, Dong Hyeok Korean Society of Medical Physics 2017 의학물리 Vol.28 No.2
The energy distribution was calculated for an electron beam from an electron linear accelerator developed for medical applications using computational methods. The depth dose data for monoenergetic electrons from 0.1 MeV to 8.0 MeV were calculated by the DOSXYZ/nrc code. The calculated data were used to generate the energy distribution from the measured depth dose data by numerical iterations. The measured data in a previous work and an in-house computer program were used for the generation of energy distribution. As results, the mean energy and most probable energy of the energy distribution were 5.7 MeV and 6.2 MeV, respectively. These two values agreed with those determined by the IAEA dosimetry protocol using the measured depth dose.
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Heuijin Lim,Sang Koo Kang,Hee Chang Kim,Seung Heon Kim,Dong Eun Lee,Sang Jin Lee,Jungyu Yi,Kyoung Won Jang,Dong Hyeok Jeong,Man Woo Lee 한국물리학회 2020 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.76 No.7
The 6-MeV C-band standing-wave accelerator was constructed in 2015 and is providing for the beam service. The new 9-MeV accelerator was designed and constructed in 2018 at the Dongnam Institute of Radiological & Medical Sciences (DIRAMS), Busan, Korea. The 5712 MHz accelerating column was designed with an average accelerating gradient of 16.7 MV/m at a pulsed resonance frequency (RF) power of 2.5 MW. The C-band coaxial magnetron was chosen for its high RF power of 2.5 MW and RF frequency of 5712 ± 10 MHz. While the 6-MeV accelerator was operating using a magnetron manufactured by BVERI, China, the 9-MeV accelerator uses a magnetron manufactured by CPI, USA. Though the CPI magnetron requires more heating power and precise heating control for high repetition operation, the frequency spectrum and the RF power distribution are satisfactory for our accelerating columns. The magnetron installed on the 9-MeV accelerator was tested with the 6-MW pulse modulator based on the thyratron-switched pulse-forming network and is currently operating for accelerator RF conditioning. In this paper, we present a brief description of the 9-MeV accelerator, the integration of the RF transport systems and the commissioning status. We also discuss the results obtained during the early commissioning and future plan.
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Fabrication and Cold Test of a 9-MeV C-Band Accelerating Column
Seung Hun Kim,Sang Koo Kang,Dong Eun Lee,Sang Jin Lee,Hee Chang Kim,Jungyu Yi,Kyoung Won Jang,Dong Hyeok Jeong,Heuijin Lim,Man Woo Lee 한국물리학회 2020 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.76 No.7
A 9-MeV electron linear accelerator based on C-band microwaves for medical applications is being assembled at the Dongnam Institute of Radiological and Medical Sciences (DIRAMS). The accelerating column has an on-axis coupled structure and will be operated with a π/2-mode standing wave. Parameters of the cavities are selected based on simulations with CST MICROWAVE STUDIOⓇ (CST MWS), and the cold test and micro-machining are performed to obtain the desired RF characteristics of the cavity. Then, the bead-pull test is conducted to measure the RF properties of the full accelerating column structure. The fabrication of the C-band accelerating column and the results of the low-power RF tests are discussed.
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이무진,임희진,이만우,이준규,이동주,강상구,정동혁,Lee, Mujin,Lim, Heuijin,Lee, Manwoo,Yi, Jungyu,Rhee, Dong Joo,Kang, Sang Koo,Jeong, Dong Hyeok 한국의학물리학회 2015 의학물리 Vol.26 No.2
모니터 전리함은 의료용 선형가속기에서 방출되는 방사선의 세기와 출력 제어를 위하여 사용된다. 본 연구에서는 가속기 기반 방사선 발생장치의 제어 시스템 개발에 사용하기 위하여 모니터 전리함 시작품을 개발하였다. 개발한 모니터 전리함은 평행 평판형 전리함 형태로서 독립적 작동이 가능한 두 개의 전리함으로 구성되어 있으며, 전극의 재료는 방사선의 감쇠를 최소화하기 위하여 얇은 연성인쇄회로기판이 사용되었다. 전리함의 시험을 위하여 코발트-60 방사선원을 이용하여 측정된 전하의 포화특성과 선형성과 같은 선량학적 특성을 평가하였다. 결과적으로 개발된 시작품이 기본 성능을 만족하며 추가 연구의 가능성을 확인하였다. The monitor chamber is a real time dosimetry device for the measurement and the control of radiation beam intensity of the linac system. The monitor chamber prototype was developed for monitoring and controlling radiation beam from the linac based radiation generator. The thin flexible printed circuit boards were used for electrodes of the two independent plane-parallel ionization chambers to minimize the attenuation of radiation beam. The dosimetric characteristics, saturation and linearity of the measured charge, were experimentally evaluated with the Co-60 gamma rays. The performance of the developed monitor chamber prototype was in an acceptable range and this study shows the possibility of the further development of the chamber with additional functions.
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연구용 선형가속기의 전자총 가열 전류에 따른 전자선의 에너지 인자 측정과 출력 측정 연구
임희진,이만우,김미영,이준규,이무진,강상구,이동주,정동혁,Lim, Heuijin,Lee, Manwoo,Kim, Me Young,Yi, Jungyu,Lee, Mujin,Kang, Sang Ku,Rhee, Dong Joo,Jeong, Dong Hyeok 한국의학물리학회 2016 의학물리 Vol.27 No.1
본 연구에서는 의료용 선형가속기 제작을 위해 개발된 연구용 선형가속기의 전자선에 대한 선량학적 특성을 실험적으로 평가하였다. 본 논문에서는 전자총 가열 전류에 따른 에너지의 변화와 출력 흡수선량 측정 결과를 보고하고자 한다. 전자선의 에너지는 필름 측정법을 써서 평균에너지와 최빈에너지의 관점에서 결정하였다. 출력 흡수선량은 최적 에너지에 대하여 평행평판형 전리함을 사용하여 물속 깊이선량율을 측정하고 TRS-398 프로토콜에 따라 결정하였다. 측정 결과 전자총 가열 전류 2.02~2.50 A에서 평균에너지와 최빈에너지는 5.94~2.80 MeV와 6.54~3.31 MeV로 변화하였다. 그리고 평균에너지 5.94 MeV의 전자선에 대해 물속 기준 깊이에서 출력 흡수선량은 5.41 Gy/min으로 나타났다. The dosimetric characteristics were experimentally evaluated for electron beams from the prototype linac developed for radiotherapy units. This paper focuses on the electron beam output and energy variations as a function of electron gun heater current. The electron energy was derived from its mean and most probable energies measured by film dosimetry. The electron beam output at the maximum electron energy was measured with the plane parallel ionization chamber in water using TRS-398 dosimetry protocol. The mean energy and the most probable energy of the electron beam were 6.54~3.31 MeV and 5.94~2.80 MeV at electron gun current of 2.02~2.50 A respectively. The output dose rate for an electron beam of mean energy 6.54 MeV was 5.41 Gy/min ${\pm}1.5%$ at the reference depth in water.
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Measurement of Electron Beam Output for the Prototype Compact Linac
김성우,강상구,이동주,임희진,이만우,이준규,이무진,양광모,노태익,정동혁,Kim, Sung-Woo,Kang, Sang Koo,Rhee, Dong Joo,Lim, Heuijin,Lee, Manwoo,Yi, Jungyu,Lee, Mujin,Yang, Kwangmo,Ro, Tae Ik,Jeong, Dong Hyeok Korean Society of Medical Physics 2015 의학물리 Vol.26 No.1
The C-band compact linear accelerator (linac) is being developed at Dongnam Institute of radiological & Medical Sciences (DIRAMS) for medical and industrial applications. This paper was focused on the output measurement of the electron beam generated from the prototype electron linac. The dose rate was measured in unit of cGy/min per unit pulse frequency according to the IAEA TRS-398 protocol. Exradin-A10 Markus type plane parallel chamber used for the measurement was calibrated in terms of dose to water at the reference depth in water. The beam quality index ($R_{50}$) was determined by the radiochromic film with a solid water phantom approximately due to low energy electrons. As a result, the determined electron beam output was $17.0cGy/(min{\cdot}Hz$. The results were used to monitor the accelerator performance during the development procedure. 의료용 및 산업용으로 활용하기 위한 C-밴드형 콤팩트 선형가속기의 개발이 동남권원자력의학원에서 진행되고 있다. 본 논문에서는 선형가속기 시작품에서 발생한 전자빔의 출력 측정 결과를 보고하고자 한다. 출력 측정은 물흡수선량에 대해 교정된 Exradin-A10 마커스형 평행평판형 전리함을 사용하여 물속 기준 깊이에서 IAEA TRS-398 프로토콜에 따라 흡수선량율을 결정하는 과정으로 진행되었다. 전자선 에너지가 낮은 점으로 인하여 선질지표($R_{50}$)은 필름 측정법을 써서 근사적으로 결정하였다. 결과로서 단위 펄스 진동수당의 선형가속기 전자빔의 출력은 $17.0cGy/(min{\cdot}Hz$로 나타났다. 본 연구의 결과는 개발 중인 전자가속기의 성능 평가 자료로 활용될 것이다.
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