A non-destructive non-contact method of the sea-bottom structure investigation

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY St Petersburg Polytechnic University Journal-Physics and Mathematics Pub Date : 2017-06-01 DOI:10.1016/j.spjpm.2017.05.007

V.A. Chupin, G.I. Dolgikh, A.N. Samchenko

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Abstract

The paper describes a nondestructive noncontact method for investigating the sea-bottom structure using hydroacoustic and laser radiation. A practical implementation of this method is also presented. The research complex incorporates a state-of-the-art low-frequency hydroacoustic radiating system and a system of coastal laser strainmeters arranged in the specially selected sea waters and coastal grounds. The hydroacoustic radiators are used to generate a seismic signal. Seismic superficial waves are recorded by the coastal laser strainmeters. Optical parts of the strainmeters are constructed as the unequal-path Michelson interferometer where the frequency-stable helium-neon lasers serve as emission sources. A preliminary model of the sea-bottom testing ground has been developed by application of geologic-geophysical procedures. The model-based analysis of the timing data of the recorded seismic waves was carried out. The prospectivity of the used method was proved.

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海底结构调查的一种非破坏性非接触方法

本文介绍了一种利用水声和激光辐射对海底结构进行无损非接触探测的方法。最后给出了该方法的具体实现。该研究综合体包括一个最先进的低频水声辐射系统和一个海岸激光应变仪系统，这些系统布置在特别选定的海水和海岸场地。水声辐射器用来产生地震信号。地震浅层波由海岸激光应变仪记录。应变仪的光学部分被构造成不等径迈克尔逊干涉仪，其中频率稳定的氦氖激光器作为发射源。应用地质-地球物理程序建立了海底试验场的初步模型。对记录到的地震波时序数据进行了基于模型的分析。验证了该方法的应用前景。

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St Petersburg Polytechnic University Journal-Physics and Mathematics PHYSICS, MULTIDISCIPLINARY-

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