en Radiation Biology Radiation Biology تحقيق بديع Original Research <b><font face="TimesNewRoman,Bold" size="3"><p align="left">ABSTRACT </p></font><font face="TimesNewRoman,Bold" size="1"><p align="left" ></font><font face="TimesNewRoman,Bold" size="3"><p align="left">Background: </p><p align="left">accurate methods of radiation therapy dose calculation. There are different Monte Carlo codes</p><p align="left">for simulation of photons, electrons and the coupled transport of electrons and photons. MCNP</p><p align="left">is a general purpose Monte Carlo code that can be used for electron, photon and coupled</p><p align="left">photon-electron transport.</p></font><font face="TimesNewRoman" size="3">Monte Carlo simulation of radiation transport is considered to be one of the most</font><b><font face="TimesNewRoman,Bold" size="3"><p align="left">Materials and Methods: </p><p align="left">calculating electron beam doses in water. For simulating, the geometry and other parameters</p><p align="left">were the same for three codes. By choosing two energy indexing algorithm (ITS & MCNP),</p><p align="left">absorbed doses were scored in water. 10</p></font><font face="TimesNewRoman" size="3">In this study the MCNP4A, 4B and 4C have been compared when</font><font face="TimesNewRoman" size="1">6 </font><font face="TimesNewRoman" size="3">Particles were followed in these three cases.</font><b><font face="TimesNewRoman,Bold" size="3"><p align="left">Results: </p><p align="left">used in 4B and 4C versions. There was a good agreement between versions 4B and 4C. For the</p><p align="left">energy spectrum, there were significant differences between these three versions in two planes.</p></font><font face="TimesNewRoman" size="3">MCNP4C and 4B gave different results compared to 4A when the ITS algorithm was</font><b><font face="TimesNewRoman,Bold" size="3"><p align="left">Conclusion: </p><p align="left">for electron transport and also requires a shorter time than the two previous versions. These</p><p align="left">results, in addition to the practical measurements acquired with MCNP4B by other investigators,</p><p align="left">suggest that in electron transport the user should use the ITS indexing energy</p><p align="left">algorithm. </p></font><font face="TimesNewRoman" size="3">Because of new improvements in electron transport in 4C, this version is reliable</font><i><font face="TimesNewRoman,Italic" size="3">Iran. J. Radiat. Res., 2005 2 (4): 191-195</font><b><font face="TimesNewRoman,BoldItalic" size="3"><p align="left">Keywords:</p></font><font face="TimesNewRoman,Italic" size="3"> Radiotherapy, electron therapy, Monte Carlo, absorbed dose, energy spe</font></b></i></b></b></b></b> ,absorbed dose,Monte Carlo, electron therapy, Radiotherapy,energy spectrum 191 195 http://ijrr.com/browse.php?a_code=A-10-1-85&slc_lang=en&sid=1 H. Nedaie nedaieha@sina.tums.ac.ir 79003194753284600211 79003194753284600211 Yes M. Shariary 79003194753284600212 79003194753284600212 No H. Gharaati 79003194753284600213 79003194753284600213 No M. Allahverdi 79003194753284600214 79003194753284600214 No M.A. Mosleh-Shirazi 79003194753284600215 79003194753284600215 No