生物体可以应激而发射光子生成超微弱发光图像。
Living systems may emit photons in response to stress and generate an ultra-weak luminescence bio-image.
生物超微弱发光的产生机理是生物光子学研究领域的基本课题。
The mechanism of biophoton emission is a basic subject of ultra weak biophoton emission research.
结论不同浓度及不同培养时间的食管癌细胞其超微弱发光强度不同。
ConclusionThe ultra-weak photon emission of esophageal cancer cells depends on their different concentrations and culture times.
方法采用生物超微弱发光探测技术对食管癌细胞的超微弱发光进行研究。
MethodsUltra-weak photon emission of esophageal cancer cells was detected using the biological ultra-weak emission detection techniques.
目的研究肿瘤细胞不同浓度及不同培养时间与超微弱发光强度之间的关系。
ObjectiveTo study the relation of different concentrations and culture time of esophageal cancer cells with their ultra-weak photon emission intensity.
在小麦的抽穗期又对其幼穗进行了超微弱发光与各种抗氧化物酶活性的测定。
We also determined ultraweak luminescence and all kinds of antioxidase activity of young panicles in the heading stage.
分析了生物超微弱发光的光子图像特点,从而看出对光子图像进行统计研究的必要。
The probability of detection of ultra weak bioluminescence in the photon count imaging system and limit of detection of photon image are discussed.
讨论了生物超微弱发光的统计分布,分析了生物超微弱发光在光子成像系统中的探测概率和光子图像的探测极限。
Image quality is improved. The probability of detection of ultra-weak bioluminescence in the photon count imaging system and limit of detection of photon image are discussed.
讨论了生物超微弱发光的统计分布,分析了生物超微弱发光在光子成像系统中的探测概率和光子图像的探测极限。
Image quality is improved. The probability of detection of ultra-weak bioluminescence in the photon count imaging system and limit of detection of photon image are discussed.
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