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In this paper, we reported a numerical solution of laser induced thermal effect in the bio-tissue. The model of photothermal effect and classical Pennes bio-heat transfer equation were introduced. Finite element method (FEM), which was realized by Matlab software, was used to calculate the temperature distribution. He-Ne laser (633 nm) was used to simulate the physical therapy in in vivo skin tissue. Under the cylinder coordinates, the three-dimension(3-D) geometry of tissue was reduced to two-dimension(2-D)computation. The results contained the radial, axial and temperature 3-D color plot. Combining the time animation display was possible. By changing the laser and tissue parameters we can get different results.This will be the initial and indispensable work of the non-destructive evaluation of the laser induced injury. 相似文献
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In this paper, we reported a numerical solution of laser induced thermal effect in the bio-tissue. The model of photothermal effect and classical Pennes bio-heat transfer equation were introduced. Finite element method (FEM), which was realized by Matlab software, was used to calculate the temperature distribution. He-Ne laser (633 nm) was used to simulate the physical therapy in in vivo skin tissue. Under the cylinder coordinates, the three-dimension(3-D) geometry of tissue was reduced to two-dimension(2-D) 相似文献
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An improved scattering optical model was developed under cylindrical coordinate to simulate the thermal effect of diffusing applicator in laser interstitial thermotherapy (LITT). The thermal damage was calculated by finite element method (FEM) using Pennes bio-heat transfer equation and Arrhenius injury integral formula. The numerical results showed that the scattering can considerably influence the evaluation of the lesion area, and the relationship between application powers or time and resulting tissue thermal damage was nonlinear. Although usually applying relatively low power can avoid tissue charring, rather higher power is recommended because it is indispensable to achieve necessary damage threshold and the therapy time can be shortened. 相似文献
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对进行激光治疗的鲜红斑痣患者的皮肤进行光谱定量分析,有利于正确分析患者病变皮肤的光学特性、调整手术设备的工作参数和提高激光治疗的效果。基于对鲜红斑痣形成机理分析及激光临床治疗过程观察,文章建立了一套自动数据采集和分析的光谱系统,可以用于测定鲜红斑痣皮肤微区在380~780 nm范围内的光谱,光谱分辨率为1 nm。实验可测定不同年龄、不同色素痣的光谱曲线,分析并讨论了影响系统工作的原因和解决方法。 相似文献
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便携式紫外-可见分光光度计的设计 总被引:8,自引:1,他引:7
介绍了一种便携式紫外-可见分光光度计的设计方法,该方法采用平场凹面全息光栅及Hamamatsu图像传感器S3904-1024Q为核心设计了小型化的色散系统;将多股光纤的一端排列成长方形直接作为入射狭缝,解决了光谱带宽与光源能量利用率之间矛盾的问题;采用触摸屏作为仪器的输入与输出设备及集成化的小型光纤光源作为仪器的光源。实验结果表明,采用该种方法设计的紫外-可见分光光度计体积小(190 mm×170 mm×100 mm)、操作简单(触摸屏操作)、可以多波长同时在线测量、技术指标符合国家标准。 相似文献
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傅里叶变换光谱学相位校正的新方法 总被引:1,自引:0,他引:1
本文提出一种校正干涉图不对称性的新方法.采用本方法进行一次处理,就可把严重失对称的干涉图变成对称,从而可校正因相位误差而造成的复原光谱畸变.理论和实验都证明此方法比目前通用的各种相位校正方法有更好的效果. 相似文献