×
近期发现有不法分子冒充我刊与作者联系,借此进行欺诈等不法行为,请广大作者加以鉴别,如遇诈骗行为,请第一时间与我刊编辑部联系确认(《中国物理C》(英文)编辑部电话:010-88235947,010-88236950),并作报警处理。
本刊再次郑重声明:
(1)本刊官方网址为cpc.ihep.ac.cn和https://iopscience.iop.org/journal/1674-1137
(2)本刊采编系统作者中心是投稿的唯一路径,该系统为ScholarOne远程稿件采编系统,仅在本刊投稿网网址(https://mc03.manuscriptcentral.com/cpc)设有登录入口。本刊不接受其他方式的投稿,如打印稿投稿、E-mail信箱投稿等,若以此种方式接收投稿均为假冒。
(3)所有投稿均需经过严格的同行评议、编辑加工后方可发表,本刊不存在所谓的“编辑部内部征稿”。如果有人以“编辑部内部人员”名义帮助作者发稿,并收取发表费用,均为假冒。
                  
《中国物理C》(英文)编辑部
2024年10月30日

Specific absorbed fractions of electrons and photons forRad-HUMAN phantom using Monte Carlo method

  • The specific absorbed fractions (SAF) for self- and cross-irradiation are effective tools for the internal dose estimation of inhalation and ingestion intakes of radionuclides. A set of SAFs of photons and electrons were calculated using the Rad-HUMAN phantom, which is a computational voxel phantom of a Chinese adult female that was created using the color photographic image of the Chinese Visible Human (CVH) data set by the FDS Team. The model can represent most Chinese adult female anatomical characteristics and can be taken as an individual phantom to investigate the difference of internal dose with Caucasians. In this study, the emission of mono-energetic photons and electrons of 10 keV to 4 MeV energy were calculated using the Monte Carlo particle transport calculation code MCNP. Results were compared with the values from ICRP reference and ORNL models. The results showed that SAF from the Rad-HUMAN have similar trends but are larger than those from the other two models. The differences were due to the racial and anatomical differences in organ mass and inter-organ distance. The SAFs based on the Rad-HUMAN phantom provide an accurate and reliable data for internal radiation dose calculations for Chinese females.
      PCAS:
  • 加载中
  • [1] Loevinger R, Berman M. MIRD J Nuclear Med., 1968, 9(Suppl 1): 7--14[2] Loevinger R, Berman M. NM/MIRD Pamphlet no 1, Revised, Society of Nuclear Medicine, NY, 1976[3] Snyder WS, Fisher Jr, Ford MR et al. Nucl. Med., 1969, 3: 7--52[4] Snyder WS, Ford MR, Warner GG. The Society of Nuclear Medicine, 1978[5] Cristy M. Report ORNL/NUREG/TM-367, Oak Ridge National Laboratory, Oak Ridge, Tenn., USA, 1980[6] Kramer R, Zankl M, Williams G. GSF - Report S-885.Reprint July 1999.Institut für Strahlenschutz, GSF-Forschungszentrum für Umwelt und Gesundheit, Neuherberg-Munchen, 1982[7] Stabin M, Watson E, Cristy M et al. Report No. ORNL/TM-12907, Oak Ridge National Laboratory, Oak Ridge, Tenn., USA, 1995[8] Gibbs SJ, Pujol A Jr, Chen TS et al. Oral. Surg. Oral. Med. O, 1984, 58: 347--354[9] Zubal I G, Harrell C R, Smith E O et al. Med. Phys., 1994, 21: 299--302[10] Dimbylow P J. Phys. Med. Biol, 2005, 50: 1047--1070[11] Xu XG, Chao TC, Bozkurt A. Health Phys., 2000, 78(5): 476--485[12] Zankl M, Schlattl H, Petoussi-Henss N et al. Voxel Phantoms for internal Dosimetry. Radiation Physics for Nuclear Medicine. Springer Berlin Heidelberg, 2011. 257--279[13] ICRP 2007 Recommendations of the International Commission on Radiological Protection ICRP Publication 103 (Oxford: Elsevier), 2007[14] Hadid L, Desbree A, Schlattl H et al. Phys. Med. Biol. 2010, 55: 3631--3641[15] QIU R, LI J L, ZHANG Z et al. Health Phys., 2008, 95: 716--724[16] LIU Yang, XIE Tian-Wu, LIU Qian. Nuclear Science and Techniques, 2011, 22: 165--173[17] CHENG Meng-Yun. Computational Modeling Method and Its Application. Hefei: Chinese Academy of Science, 2012[18] International Commission on Radiological Protection, Basic Anatomical and Physiological Data for Use in Radiological Protection: Reference Values, ICRP Publication 89, 2003[19] International Commission on Radiation Units and Measurements, Tissue Substitutes in Radiation Dosimetry and Measurement, Bethesda, MD: ICRU; ICRU Report 44, 1989[20] CHENG M Y, ZENG Q, CAO R F et al. Progress in Nuclear Science and Technology (PNST), 2011, 2: 237--241[21] WU Y, FDS Team. Fusion Engineering and Design, 2009, 84: 1987--1992[22] WU Y, XIE Z, Fischer U. Nuclear Scinece and Engineering and Design, 2009, 84(7--11): 1987--1992[23] SONG J, SUN G Y, CHEN Z P et al. Fusion Engineering and Design, 2014, 89(11): 2499--2503[24] WU Y, SONG J, ZHENG H et al. Annals of Nuclear Energy. DOI:10.1016/j.anucene, 2014, 08: 058[25] WU Y C, JIANG J Q, WANG M H et al. Nuclear Fusion, 2011, 50(10): 103036[26] WU Y, CHEN H, LIU S et al. Journal of Nuclear Materials, 2009, 386--388: 122--126[27] WU Y, FDS Team. Fusion Engineering and Design, 2008, 83: 1683--1689[28] WU Y, FDS Team. Fusion Engineering and Design, 2006, 81: 2713--2718[29] WU Y C, QIAN J P, YU J N. Journal of Nuclear Materials, 2002, 307--311: 1629--1636[30] WU Yi-Can, SONG Gang, CAO Rui-Fen et al. Chinese Physics C (HEP NP), 2008, 32(Suppl. II): 177--182[31] Bolch W E, Eckerman K F, Sgouros G et al. J Nucl. Med., 2009, 50: 477--484. [PubMed: 19258258][32] ICRP. 1979 Limits for Intakes of Radionuclides by Workers: Part 1 ICRP Publication 30 (Oxford: Pergamon), 1979[33] ICRP. ICRP Publication 107: Nuclear Decay Data for Dosimetric Calclations. Ann ICRP. 2008b, 38: 1--26. [PubMed: 19154964]
  • 加载中

Get Citation
WANG Wen, CHENG Meng-Yun, LONG Peng-Cheng and HU Li-Qin. Specific absorbed fractions of electrons and photons forRad-HUMAN phantom using Monte Carlo method[J]. Chinese Physics C, 2015, 39(7): 078203. doi: 10.1088/1674-1137/39/7/078203
WANG Wen, CHENG Meng-Yun, LONG Peng-Cheng and HU Li-Qin. Specific absorbed fractions of electrons and photons forRad-HUMAN phantom using Monte Carlo method[J]. Chinese Physics C, 2015, 39(7): 078203.  doi: 10.1088/1674-1137/39/7/078203 shu
Milestone
Received: 2014-11-02
Revised: 1900-01-01
Article Metric

Article Views(1924)
PDF Downloads(157)
Cited by(0)
Policy on re-use
To reuse of subscription content published by CPC, the users need to request permission from CPC, unless the content was published under an Open Access license which automatically permits that type of reuse.
通讯作者: 陈斌, [email protected]
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

Email This Article

Title:
Email:

Specific absorbed fractions of electrons and photons forRad-HUMAN phantom using Monte Carlo method

    Corresponding author: HU Li-Qin,

Abstract: The specific absorbed fractions (SAF) for self- and cross-irradiation are effective tools for the internal dose estimation of inhalation and ingestion intakes of radionuclides. A set of SAFs of photons and electrons were calculated using the Rad-HUMAN phantom, which is a computational voxel phantom of a Chinese adult female that was created using the color photographic image of the Chinese Visible Human (CVH) data set by the FDS Team. The model can represent most Chinese adult female anatomical characteristics and can be taken as an individual phantom to investigate the difference of internal dose with Caucasians. In this study, the emission of mono-energetic photons and electrons of 10 keV to 4 MeV energy were calculated using the Monte Carlo particle transport calculation code MCNP. Results were compared with the values from ICRP reference and ORNL models. The results showed that SAF from the Rad-HUMAN have similar trends but are larger than those from the other two models. The differences were due to the racial and anatomical differences in organ mass and inter-organ distance. The SAFs based on the Rad-HUMAN phantom provide an accurate and reliable data for internal radiation dose calculations for Chinese females.

    HTML

Reference (1)

目录

/

DownLoad:  Full-Size Img  PowerPoint
Return
Return