Depth dependence of the single chamber response function of the I鈥檓RT MatriXX array in a 6 MV photon beam

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• 作者：Saleh Alashrah ; Sivamany K ; aiya ; Liang Soo Lum ; Soon Keong Cheng
• 关键词：Lorentz kernel ; Gaussian kernel ; I&rsquo ; mRT MatriXX array
• 刊名：Zeitschrift für Medizinische Physik
• 出版年：December, 2013
• 年：2013
• 卷：23
• 期：4
• 页码：270-278
• 全文大小：522 K

文摘

One of the factors which influence the spatial resolution of a 2D detector array is the size of the single detector, another the transport of the secondary electrons from the walls into the measuring volume. In this study, the single ion chamber dose response function of an I鈥檓RT MatriXX array was determined by comparison between slit beam dose profiles measured with the array and with EBT2 radiochromic film in a solid water-equivalent phantom at a shallow depth of 0.5 cm and at a depth of 5 cm beyond the depth dose maximum for a 6 MV photon beam. The dose response functions were obtained using two methods, the best fit method and the deconvolution method. At the shallow depth, a Lorentz function and at 5 cm depth a Gaussian function, both with the same FWHM of 7.4 mm within limits of uncertainty, were identified as the best suited dose response functions of the 4.5 mm diameter single array chamber. These dose response functions were then tested on various dose profiles whose true shape had been determined with EBT2 film and with the IC03 ionization chamber. By convolving these with the Lorentz kernel (at shallow depth) and the Gaussian kernel (at 5 cm depth) the signal profiles measured with the I鈥檓RT MatriXX array were closely approximated. Thus, the convolution of TPS-calculated dose profiles with these dose response functions can minimize the differences between calculation and measurement which occur due to the limited spatial resolution of the I鈥檓RT MatriXX detector.