流场刺激下海洋生物发光的光学特性及数理模型

曹静; 宗思光; 王江安; 马治国; 吴荣华

doi:10.3788/fgxb20123310.1039

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流场刺激下海洋生物发光的光学特性及数理模型

材料合成及性能研究 | 更新时间：2020-08-12

- 流场刺激下海洋生物发光的光学特性及数理模型
- Optical Characteristics and Math-physical Model of Bioluminescence of Oceanic Organism Stimulated by Flow
- 发光学报 2012年33卷第10期页码：1039-1048
- 作者机构：
  
  海军工程大学电子工程学院, 湖北武汉 430033
- 作者简介：
- 基金信息：
  
  国防基金(9140A03050809JB1106)资助项目()
- DOI：10.3788/fgxb20123310.1039
  中图分类号： O482.31
- 纸质出版日期：2012-10-10，
  
  收稿日期：2012-7-23，
  
  修回日期：2012-8-20，
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曹静, 宗思光, 王江安, 马治国, 吴荣华. 流场刺激下海洋生物发光的光学特性及数理模型[J]. 发光学报, 2012,(10): 1039-1048

CAO Jing, ZONG Si-guang, WANG Jiang-an, MA Zhi-guo, WU Rong-hua. Optical Characteristics and Math-physical Model of Bioluminescence of Oceanic Organism Stimulated by Flow[J]. Chinese Journal of Luminescence, 2012,(10): 1039-1048
曹静, 宗思光, 王江安, 马治国, 吴荣华. 流场刺激下海洋生物发光的光学特性及数理模型[J]. 发光学报, 2012,(10): 1039-1048 DOI： 10.3788/fgxb20123310.1039.

CAO Jing, ZONG Si-guang, WANG Jiang-an, MA Zhi-guo, WU Rong-hua. Optical Characteristics and Math-physical Model of Bioluminescence of Oceanic Organism Stimulated by Flow[J]. Chinese Journal of Luminescence, 2012,(10): 1039-1048 DOI： 10.3788/fgxb20123310.1039.

摘要

生物受激发光探测是一种感知水中目标的新技术、新手段。选取多边膝沟藻、夜光虫和月芽形梨甲藻3种典型海洋受激发光生物体为对象

采用光谱仪、光子计数器、库埃特流场旋转圆筒等装置搭建了生物受激发光实验平台

研究了不同刺激下生物体受激发光的光学特性

并在此基础上结合概率论和数理统计理论

建立了流场刺激下的生物发光的数理模型。结果表明:发光藻的发光具有较好的单色谱特性

峰值波长集中在472nm左右

谱线的半波宽度为30~40nm。发光藻的发光随着机体的疲劳而变弱

但发光能力随着机体的休息会慢慢恢复。同种刺激条件下

3种藻发光强度的强弱依次为月芽形梨甲藻、夜光虫、多边膝沟藻。

Abstract

The detection of stimulated bioluminescence is the new technology and method of target detection in water.Three representative luminescent alga

such as lingulodinium polyedrum

pyrocystis noctiluca and pyrocystis lunula

are studied.The platform of stimulated bioluminescence is built by the use of spectrometer

photon counter

Couette flow device and so on.The optical characteristics of bioluminescence stimulated by flow are researched.Based on the experimental study

probabilistic and mathematic statistic theory

the math-physical model of stimulated bioluminescence is built.The experiment results showed that the light spectrum of luminescence alga is a single wavelength with about 472 nm of the maximum wavelength and 30~40 nm of full width at half maximum.Furthermore

the intensities of bioluminescence are different with different organisms and attenuated with the decrease of the energy of organisms

but it will be recovered after a rest.On the basis of their bioluminescence response in the same stimulated condition

these species were ranked in order of decreasing sensitivity as

(pyrocystis lunula)

(pyrocystis noctiluca)

(lingulodinium polyedrum).

关键词

生物受激发光发光藻库埃特流数理模型

Keywords

stimulated bioluminescenceluminescent algaCouette flowmath-physical model

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Stefan B,Futoshi K,Hiroyasu S,et al.Hydromechanical stimulation of bioluminescent plankton [J].J.Lumin., 2002,17(6):370-380.《发光学报》成为美国《EI》收录源期刊 2010年3月25日,《发光学报》接到EI 中国信息部通知:从2010年第1期起正式被《EI》(《工程索引》)收录为刊源。EI作为世界领先的应用科学和工程学在线信息服务提供者,是全世界最早的工程文摘来源,一直致力于为科学研究者和工程技术人员提供最专业、最实用的在线数据、知识等信息服务和支持。《发光学报》被EI收录,对加强我国发光学研究领域及论文作者开展更广泛的国内外交流,提升我国技术人员学术声誉具有积极的促进作用。《发光学报》由中国物理学会发光分会、中国科学院长春光学精密机械与物理研究所主办,徐叙瑢院士和范希武研究员任名誉主编,申德振研究员担任主编。《发光学报》自1980年创刊以来,在业内专家的大力支持下,得到了健康、快速的发展。《发光学报》2011年度影响因子为1.762,已成为我国物理学领域有较大影响的学术刊物。《发光学报》能够进入《EI》,是国际社会对工作在发光学科研领域里的我国科学工作者学术水平的认可,是对长春光机所主办期刊的认可。《发光学报》成为《EI》源期刊后,将获得更好的办刊平台,为将《发光学报》办成有特色的精品期刊创造了良好的条件。

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