Research on increasing X-ray protection capability based on photonic crystal technology.
- Author:
Ping LI
;
Peng ZHAO
;
Rui ZHANG
- Publication Type:Journal Article
- MeSH:
China;
Computer Simulation;
Light;
Photons;
Radiation Protection;
X-Rays
- From:
Journal of Biomedical Engineering
2014;31(3):543-546
- CountryChina
- Language:Chinese
-
Abstract:
Light cannot be propagated within the range of photonic crystal band gaps. Based on this unique property, we proposed a method to improve anti-radiation capability through one-dimensional photonic crystal coating. Using transmission matrix method, we determined the appropriate dielectric materials, thickness and periodic numbers of photonic crystals through Matlab programming simulation. Then, compound one-dimensional photonic crystal coating was designed which was of high anti-radiation rate within the range of X-ray. As is shown through simulation experiments, the reflection rate against X-ray was higher than 90 percent, and the desired anti-radiation effect was achieved. Thus, this method is able to help solve the technical problems facing the inorganic lead glass such as thickness, weightiness, costliness, high lead equivalent, low transparency and high cost. This method has won China's national invention patent approval, and the patent number is 201220228549.2.
