原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
1期
147-151
,共5页
谷懿%葛良全%熊盛青%周坚鑫%范正国
穀懿%葛良全%熊盛青%週堅鑫%範正國
곡의%갈량전%웅성청%주견흠%범정국
航空γ能谱测量%氡本底校正%谱线比法%校正系数
航空γ能譜測量%氡本底校正%譜線比法%校正繫數
항공γ능보측량%동본저교정%보선비법%교정계수
airborne γ-ray spectrometry%radon background correction%spectral-ratio method%correction coefficient
大气氡子体释放的γ射线严重影响航空γ能谱测量结果,而谱线比大气氡校正方法是航空γ能谱测量大气氡校正数学方法中校正效果较好的一种。本文在此方法的基础上提出了基于快速傅里叶变换扣除散射射线的谱线比大气氡校正方法,研究了改进后新谱线比法不同组分校正系数和高度之间的关系,建立了新谱线比大气氡校正数学模型,并提出了校正系数的地面饱和模型刻度技术。改进后的谱线比大气氡校正方法的适用性及其校正系数的刻度效率得到了提高,节省了谱线比方法应用成本,解决了传统谱线比大气氡校正方法中校正系数采用谱形拟合方法导致物理含义丢失的问题。
大氣氡子體釋放的γ射線嚴重影響航空γ能譜測量結果,而譜線比大氣氡校正方法是航空γ能譜測量大氣氡校正數學方法中校正效果較好的一種。本文在此方法的基礎上提齣瞭基于快速傅裏葉變換釦除散射射線的譜線比大氣氡校正方法,研究瞭改進後新譜線比法不同組分校正繫數和高度之間的關繫,建立瞭新譜線比大氣氡校正數學模型,併提齣瞭校正繫數的地麵飽和模型刻度技術。改進後的譜線比大氣氡校正方法的適用性及其校正繫數的刻度效率得到瞭提高,節省瞭譜線比方法應用成本,解決瞭傳統譜線比大氣氡校正方法中校正繫數採用譜形擬閤方法導緻物理含義丟失的問題。
대기동자체석방적γ사선엄중영향항공γ능보측량결과,이보선비대기동교정방법시항공γ능보측량대기동교정수학방법중교정효과교호적일충。본문재차방법적기출상제출료기우쾌속부리협변환구제산사사선적보선비대기동교정방법,연구료개진후신보선비법불동조분교정계수화고도지간적관계,건립료신보선비대기동교정수학모형,병제출료교정계수적지면포화모형각도기술。개진후적보선비대기동교정방법적괄용성급기교정계수적각도효솔득도료제고,절성료보선비방법응용성본,해결료전통보선비대기동교정방법중교정계수채용보형의합방법도치물리함의주실적문제。
γ-ray released by the radon daughter has severe impact on airborne γ-ray spectrometry .T he spectral-ratio method is one of the best mathematical methods for radon background deduction in airborne γ-ray spectrometry .In this paper ,an advanced spectral-ratio method was proposed which deducts Compton scattering ray by the fast Fourier transform rather than tripping ratios ,the relationship between survey height and correction coefficient of the advanced spectral-ratio radon background correction method was studied , the advanced spectral-ratio radon background correction mathematic model was established , and the ground saturation model calibrating technology for correction coefficient was proposed .As for the advanced spectral-ratio radon background correction method , its applicability and correction efficiency are improved ,and the application cost is saved .Furthermore ,it can prevent the physical meaning lost and avoid the possible errors caused by matrix computation and mathematical fitting based on spectrum shape w hich is applied in traditional correction coefficient .
