摘要
提出一种可用于大规模集成芯片、生物医学和科学研究等显微热诊断的显微热成像设计方案.研究了显微热成像系统的噪声等效温差(NETD)和噪声等效辐射率差(NEED)模型,分析了显微热成像与望远模式热成像的差异.针对理想光子探测器和理想热探测器,探讨了显微热成像系统的NETD和NEED的关系.理论推导及仿真结果表明二者是以背景温度为函数的非线性关系.从理论上给出了提高显微热成像质量的一些建议.
To provide means for minute sized thermal analysis for LSI, biomedical engineering and scientific research, micro thermal imaging systems were designed. Both the mathematical mode of noise equivalent temperature difference (NETD) and the noise equivalent eradiation difference (NEED) are established for micro thermal imaging systems. The difference between the micro pattern with the telescopic pattern is analysed. Based on the ideal photon detector and ideal thermal detector, the relationship between NETD and NEED is studied. The derivation and simulation demonstrates that the relationship between them is nonlinear based on the temperature of background. Some suggestions are given to improve image quality.
出处
《北京理工大学学报》
EI
CAS
CSCD
北大核心
2007年第1期50-54,共5页
Transactions of Beijing Institute of Technology
基金
北京市自然科学基金资助项目(4062029)
关键词
显微热成像
噪声等效温差
数学模型
噪声等效辐射率差
micro thermal imaging
noise equivalent temperature difference
mathematical model
noise equivalent eradiation difference
