[1] Constantinou C, Harrington JC, Dewerd LA. An electron density phantom for calibration CT based planning computers to correct for heterogeneities[J].Med Phys,1992,19(2):325-332.
[2] Constantinou C, Harrington JC, Cadieux RA, et al. Dosimetry lung-muscle and lung-bone interfaces using 6MV and 10MV x-rays and 12-18 MeV electrons[J]. Int Radiat Oncol Biol Phys,1993,15(suppl 1):244.
[3] Mackie TR, El-khatib E, Battista J. Lung dose correction for 6 and 15MV X-rays[J].Med Phys,1985,12(3):327.
[4] Tissue inhomogeneity corrections for MV photon beams Report of Task Group No.85 of the Radiation Therapy Committee of the American Association of Physicists in Medicine(AAPM). AAPM Report 85.2004.
[5] Fogiata A, Ncolini G, Clivio A. et al. Dosimetric evaluation of Acuros XB advanced dose calculation algorithm in heterogeneous media[J].Radiat Oncol,2011,6:82.
[6] Bush K, Gagne IM, Zavgorodni S, et al. Dosimetric validation of Acuros XB with Monte Carlo methods for photon dose calculations[J].Med Phys,2011,38(4):2208-2221.
[7] 吕晓平,张艺宝,吴昊,等.Acuros XB、各向异性解析算法与蒙特卡罗算法在非均匀组织中剂量计算准确性对比研究[J].中国医学物理学杂志,2016,33(4):348-352.
[8] C.-M.Ma, E.Mok, A.Kapur, et al. Clinical implementation of a Monte Carlo treatment planning system[J]. Med Phys,1999,26(10):2133-2342.
[9] Tissue Substitutes in Radiation Dosimetry and Measurement (Report 44) ICRU (1989).
[10] Kirkby C, Sloboda R. Comprehensive Monte Carlo calculation of the point spread function for a commercial a-Si EPID[J]. Med Phys, 2005, 32(4):1115-1127.
[11] 苗利,刘胜堂,孙彦泽,等.基于蒙特卡罗方法对光子束剂量沉积核的研究[J].核技术,2013,36(1):45-49.