Abstract
Purpose: The purpose of this study was to evaluate dosimetric characteristics of Optically stimulated luminescent dosimeters (OSLD) for dosimetry Materials and Methods: InLight/OSL $NanoDot^{TM}$ dosimeters was used including $Inlight^{TM}MicroStar$ Reader, Solid Water Phantom, and Linear accelerator ($TRYLOGY^{(R)}$) OSLDs were placed at a Dmax in a solid water phantom and were irradiated with 100 cGy of 6 MV X-rays. Most irradiations were carried out using an SSD set up 100 cm, $10{\times}10\;cm^2$ field and 300 MU/min. The time dependence were measured at 10 minute intervals. The dose dependence were measured from 50 cGy to 600 cGy. The energy dependence was measured for nominal photon beam energies of 6, 15 MV and electron beam energies of 4-20 MeV. The dose rate dependence were also measured for dose rates of 100-1,000 MU/min. Finally, the PDD was measured by OSLDs and Ion-chamber. Results: The reproducibility of OSLD according to the Time flow was evaluated within ${\pm}2.5%$. The result of Linearity of OSLD, the dose was increased linearly up to about the 300 cGy and increased supralinearly above the 300 cGy. Energy and dose rate dependence of the response of OSL detectors were evaluated within ${\pm}2%$ and ${\pm}3%$. $PDD_{10}$ and PDD20 which were measured by OSLD was 66.7%, 38.4% and $PDD_{10}$ and $PDD_{20}$ which were measured by Ion-chamber was 66.6%, 38.3% Conclusion: As a result of analyzing characteration of OSLD, OSLD was evaluated within ${\pm}3%$ according to the change of the time, enregy and dose rate. The $PDD_{10}$ and $PDD_{20}$ are measured by OSLD and ion-chamber were evaluated within 0.3%. The OSL response is linear with a dose in the range 50~300 cGy. It was possible to repeat measurement many times and progress of the measurement of reading is easy. So the stability of the system and linear dose response relationship make it a good for dosimetry.
목 적: 방사선 치료의 선량평가를 위해 사용되는 Optically stimulated luminescent dosimeters (OSLD) 선량 특성을 분석하여, 선량 측정의 유용성을 알아보고자 한다. 대상 및 방법: $NanoDot^{TM}$와 $Inlight^{TM}$MicroStar Reader, Solid Water Phantom, 의료용 선형가속기 $TRYLOGY^{(R)}$를 사용하였다. 측정 조건은 OSLD를 Solid Water Phantom의 $D_{max}$ 깊이에 위치시킨 후 SSD는 100 cm, Field size는 $10{\times}10\;cm^2$로 하고 300 MU/min으로 6 MV 광자선, 100 cGy의 방사선을 조사하였다. OSLD를 10분 마다 판독하면서 변화값을 측정하였고, OSLD에 선량을 50 cGy와 100 cGy씩 누적시켜 판독하였다. 또한 에너지 의존성은 6 MV, 15 MV, 4~20 MeV를 사용하였다. 선량률은 100~1,000 MU/min로 변화시키면서 측정하였다. 광자선 6 MV의 PDD의 변화를 측정하기 위해 OSLD와 전리함(Ionization chamber) (FC 65P-747)을 사용하였다. 결 과: 시간의 경과에 따른 OSLD의 재현성은 ${\pm}2.5%$였다. OSLD의 선량에 대한 선형성(linearity)을 평가한 결과 300 cGy까지는 선형적으로 증가하였고, 300 cGy 이상에서는 초선형적(supralinearity)으로 증가하였다. 에너지 의존성은 ${\pm}2%$ 이내였고 선량율 의존성은 ${\pm}3%$ 이내였다. 6 MV 광자선에 대하여 OSLD로 측정한 $PDD_{10}$은 66.7%, $PDD_{20}$은 38.4%였고 전리함(Ionization chamber)으로 측정한 $PDD_{10}$은 66.6%, $PDD_{20}$은 38.3%였다. 결 론: OSLD의 특성을 분석한 결과 시간, 에너지, 선량률의 변화에 따른 차이는 ${\pm}3%$ 이내였으며 전리함(Ionization chamber)과 비교한 PDD는 0.3% 이내였다. 또한 300 cGy까지는 선량이 선형적으로 증가하였다. OSLD는 여러 번 반복 측정이 가능하였고 측정과 판독이 용이하여 선량계로서 유용성을 확인하였다.