A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method

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A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method

Hashemi SM¹ ; Hashemimalayeri B¹ ; Raisali G² ; Shokrani P³ ; Sharafi AA⁴

Show Affiliations

1. Department of Medical Physics, Tarbiat Modares University, Tehran, P. O. Box 14115-151, Iran
2. Gamma Irradiation Center, Atomic Energy Organization of Iran, End of Kargare Shomali, Tehran, P. O. Box 11365-3486, Iran
3. Department of Medical Physics and Engineering, Esfahan University of Medical Sciences, Hezarjarib, Esfahan, Iran
4. Department of Radiology Technology, School of Paramedicine, Iran University of Medical Sciences, Tehran, Hemmat highway, Iran

Source: Nukleonika Published:2007

Abstract

High energy linacs have several advantages including lower skin dose and higher dose rate at deep sighted tumors. But, at higher energies photonuclear reactions produce neutron contamination. Photoneutron contamination has been investigated from the early days of modern linacs. However, more studies have become possible using Monte Carlo codes developed in recent years. The aim of this study was to investigate the photoneutron spectrum and dose equivalent produced by an 18 MV Saturne linac at different points of a treatment room and its maze. The MCNP4C code was used to simulate the transport of photoneutrons produced by a typical 18 MV Saturne linac. The treatment room of a radiotherapy facility in which a Saturne 20 linac is installed was modeled. Neutron dose equivalent was calculated and its variations at various distances from the center of the X-ray beam was studied. It was noted that by increasing the distance from the center of the beam, fast neutrons decrease rapidly, but thermal neutrons do not change significantly. In addition, the photoneutron dose equivalent was lower for smaller fields. The fast photoneutrons were not recorded in the maze. It can be concluded that the fast photoneutrons are highly attenuated by concrete barrier, while the slow photoneutrons are increased. In addition, increasing the X-ray field size increases the photoneutron dose equivalent around the treatment room and maze. It seems that the walls play an effective role in increasing the photoneutron dose equivalent.

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Style	Citing Format
MLA	Hashemi SM, et al.. "A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method." Nukleonika, vol. 52, no. 1, 2007, pp. 39-43.
APA	Hashemi SM, Hashemimalayeri B, Raisali G, Shokrani P, Sharafi AA (2007). A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method. Nukleonika, 52(1), 39-43.
Chicago	Hashemi SM, Hashemimalayeri B, Raisali G, Shokrani P, Sharafi AA. "A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method." Nukleonika 52, no. 1 (2007): 39-43.
Harvard	Hashemi SM et al. (2007) 'A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method', Nukleonika, 52(1), pp. 39-43.
Vancouver	Hashemi SM, Hashemimalayeri B, Raisali G, Shokrani P, Sharafi AA. A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method. Nukleonika. 2007;52(1):39-43.
BibTex	@article{ author = {Hashemi SM and Hashemimalayeri B and Raisali G and Shokrani P and Sharafi AA}, title = {A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method}, journal = {Nukleonika}, volume = {52}, number = {1}, pages = {39-43}, year = {2007} }
RIS	TY - JOUR AU - Hashemi SM AU - Hashemimalayeri B AU - Raisali G AU - Shokrani P AU - Sharafi AA TI - A Study of the Photoneutron Dose Equivalent Resulting From a Saturne 20 Medical Linac Using Monte Carlo Method JO - Nukleonika VL - 52 IS - 1 SP - 39 EP - 43 PY - 2007 ER -

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