Changes in Spectra of Gaussian Schell-Model Beams Propagating in Biological Tissues

Yannan, 田燕男 Tian; Meiling, 段美玲 Duan; Yunguang, 吴云光 Wu; Yongmei, 张永梅 Zhang

doi:10.3788/cjl201946.1207001

中国激光

2019

DOI: 10.3788/cjl201946.1207001

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Changes in Spectra of Gaussian Schell-Model Beams Propagating in Biological Tissues

田燕男 Tian Yannan¹,

段美玲 Duan Meiling²,

吴云光 Wu Yunguang³

et al.

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2024

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相干涡旋和刃型位错在海洋湍流中的相互作用

Chen Haitao,

Gao Zenghui

2024

中国激光

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Objective It is well known that there are two typical phase singularities in the fully coherent beams, i. e. , the optical vortex and the edge dislocation. Although much of research has explored properties of the fully coherent beams, there are practical uses of the partially coherent beams because they are more resistant to degradation with propagation through turbulent medium than the former.The propagation of the partially coherent beams carrying coherence singularities in oceanic turbulence has attracted much attention due to its application in underwater wireless communication. It is interesting to ask how oceanic turbulence can affect the interaction of coherence vortex and edge dislocation carried by partially coherent beams. Because the Gaussian Schellmodel beam is a typical example of partially coherent beams, the interaction of the coherence vortex and edge dislocation carried by the Gaussian Schellmodel beams in oceanic turbulence is studied in detail.

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相干涡旋和刃型位错在海洋湍流中的相互作用

Chen Haitao,

Gao Zenghui

2024

中国激光

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Changes in Spectra of Gaussian Schell-Model Beams Propagating in Biological Tissues

Cited by 1 publication

References 0 publications

相干涡旋和刃型位错在海洋湍流中的相互作用

相干涡旋和刃型位错在海洋湍流中的相互作用

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