monte-carlo calculation of radon absorbed dose in optical fiber as a novel method in dosimetry and radon measurement
Authors
abstract
introduction radon is a colorless and tasteless gas which exists in most soils. it is a substance that poses a potential risk for lung cancer in case a person is exposed to high levels over long periods of time. the environmental protection agency (epa) estimates that 90% of lung cancers per year are caused by radon. the aim of this paper is to estimate the absorbed doses of 222rn by mcnpx simulation in single-mode optical fiber (smf) as a method proposed for dosimetry test. materials and methods to calculate the absorbed dose of 222rn in smf using mcnpx-2.6 code, the *f6 tally was applied. smf was simulated by being exposed to radon while being located in the axis of the pipe. results the absorbed doses due to beta, gamma, and alpha radiations emitted from radon in smf obtained by monte carlo simulations were equal to 5.76311e-13, 5.06973e-15, and 4.83457e-14gy/particle, respectively. therefore, the total absorbed dose for radon in smf was in the order of 6.29727e-13 gy/particle. the mcnpx outputs are always normalized to one source particle. therefore to calculate the absorbed dose in various radon concentrations, this result must be multiplied to the number of source particles in active volume around the smf. the daily radon absorbed dose in a one-meter of smf and 1 kbq/m3 radon concentration is about 0.017 mgy which is in a dose range of tld dosimeters. conclusion the results show that the smf can be regarded as a radon dosimeter and may be used for beta-particles dosimetry.
similar resources
Monte-Carlo Calculation of Radon Absorbed Dose in Optical Fiber as a Novel Method in Dosimetry and Radon Measurement
Introduction Radon is a colorless and tasteless gas which exists in most soils. It is a substance that poses a potential risk for lung cancer in case a person is exposed to high levels over long periods of time. The Environmental Protection Agency (EPA) estimates that 90% of lung cancers per year are caused by radon. The aim of this paper is to estimate the absorbed doses of 222Rn by MCNPX simu...
full textAbsorbed Dose Assessment from Short-Lived Radionuclides of Radon (222Rn) Decay Chain in Lung Tissue: A Monte Carlo Study
Introduction: Internal exposure to radon gas progeny can lead to serious biologic damages to the lung tissue. The aim of this study was to evaluate the absorbed dose by lung tissue due to the exposure from short-lived radioactive products of radon (222Rn) decay using Monte Carlo simulation. Material and Methods: A lung equivalent p...
full textAbsorbed dose of Fetus in SPECT-CT Imaging of Mother's Abdomen Regions using Monte Carlo method
SPECT-CT is an imaging method for diagnosing diseases and studying physiology of the body. In this type of imaging, due to the use of radiopharmaceutical for imaging (SPECT) and X-rays (CT), a relatively high dose of radiation is introduced into the patient. If the patient is pregnant, considering that the developing fetus is sensitive to any radiation in the uterus throughout the entire period...
full textCalculation of Absorbed Glandular Dose using a FORTRAN Program Based on Monte Carlo X-ray Spectra in Mammography
Introduction: Average glandular dose calculation in mammography with Mo-Rh target-filter and dose calculation for different situations is accurate and fast. Material and Methods: In this research, first of all, x-ray spectra of a Mo target bombarded by a 28 keV electron beam with and without a Rh filter were calculated using the MCNP code. Then, we used the Sobol-Wu parameters to write a FORTRA...
full textAbsorbed fraction and dose conversion coefficients of alpha particles for radon dosimetry.
The sensitivity to different relevant parameters of the absorbed fraction of alpha particles emitted from the 222Rn chain in sensitive cells of the tracheo-bronchial tree have been investigated. The structure of the airway wall given by ICRP (ICRP66) has been adopted and employed in the present calculations. The source thickness (mucous gel and sol + cilia), target layer thickness and the depth...
full textDose assessment and measurement of radon concentration in water supplies of Borujerd County in Iran
Background: Radon as a potential risk of radiation exposure is a natural radioactive element that can emit from rocks and soils. Due to solubility in water, it can be inhaled or consumed by the public. The purpose of this study was carrying out measurement and evaluation of radon concentration in samples of drinking water which are collected from water supplies of Borujerd. Materials and Method...
full textMy Resources
Save resource for easier access later
Journal title:
iranian journal of medical physicsجلد ۱۰، شماره ۱، صفحات ۴۵-۵۰
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023