Opto-Acoustic Effects by Laser Breakdown of Seawater in an Ultrasonic Field

Буланов, А. В.; Соседко, Е. В.

doi:10.1134/s1028334x20030022

Cited by 6 publications

(5 citation statements)

References 10 publications

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“…To analyze the breakdown dynamics and study the parameters of the acoustic w itiated by optical breakdown, a Brüel & Kjaer type 8103 hydrophone was used as a band acoustic receiver, the calibration of which at high frequencies was expanded to 80 Acoustic information was digitized and recorded using a multichannel I/O boar L-Card with a maximum digitization frequency of ~5 MHz. To control ultrasound, a trary pulse generator GSPF 053, a power amplifier, and a resonant cylindrical r [34][35][36] were used, inside which a liquid breakdown occurred in a converging ultr…”

Section: Methods Of Conducting Experimentsmentioning

confidence: 99%

“…Acoustic information was digitized and recorded using a multichannel I/O board from L-Card with a maximum digitization frequency of ~5 MHz. To control ultrasound, an arbitrary pulse generator GSPF 053, a power amplifier, and a resonant cylindrical radiator [34][35][36] were used, inside which a liquid breakdown occurred in a converging ultrasound field.…”

Section: Methods Of Conducting Experimentsmentioning

confidence: 99%

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Cavitation Strength, Acoustic Nonlinearity, and Gas Bubble Distribution in Water

Bulanov,

Sosedko,

Bulanov

et al. 2023

Fluids

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The acoustic properties of real liquids are largely related to the phase inclusions contained in them, of which gas bubbles are the most common. The aim of the work was to find the relationship between the nonlinear acoustic parameter and the cavitation strength of the liquid with the distribution of bubbles in the liquid, which has so far been poorly studied. The theoretical studies of the parameter of acoustic nonlinearity and the cavitation strength of a liquid with bubbles were carried out within the framework of the homogeneous approximation of a micro-homogeneous liquid; the relationship of these parameters with the bubble distribution function was established, and the typical values of these parameters for different concentrations of bubbles were calculated. Experimental measurements of the parameter of acoustic nonlinearity and the cavitation strength in the upper layer of seawater were carried out; these measurements were consistent with the theoretical estimates. A connection was established between the thresholds of acoustic and optical cavitation—the optical breakdown of a liquid by laser radiation. The results obtained can find practical application in the measurement of the cavitation strength of seawater at great depths in the sea, and the use of an optoacoustic method associated with the use of optical cavitation is proposed.

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Section: Methods Of Conducting Experimentsmentioning

confidence: 99%

Section: Methods Of Conducting Experimentsmentioning

confidence: 99%

Cavitation Strength, Acoustic Nonlinearity, and Gas Bubble Distribution in Water

Bulanov,

Sosedko,

Bulanov

et al. 2023

Fluids

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“…Important works were related to the study of the combined effects of laser radiation and ultrasound [21][22][23]. In this article, the study of this issue and the results obtained allowed us to form the possibilities for creating a device for rapid assessment of the characteristics of aquatic environments.…”

Section: Of 25mentioning

confidence: 99%

“…The reason for this effect should presumably be sought in different conditions of the appearance of bubbles nucleus in a standing wave when exposed to ultrasound on a liquid during an optical breakdown. Descriptions of the results related to the dynamics of the lines of various elements during the development of laser breakdown in the ultrasound field are partially contained in [21][22][23]. The spectral data base (Atomic Spectra Database) was used everywhere when analyzing the results [24].…”

Section: Figure 6 Dependence Of the Sodium Line Intensity On The Lase...mentioning

confidence: 99%

The Ultrasound Action on the Laser– Induced Breakdown and Spectral Elemental Analyzes of Seawater

Буланов¹,

Krikun²,

Nagorny³

2022

Preprint

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This paper develops the study of the effect of powerful ultrasound on the laser breakdown of liquids and a comparative study of the possibilities of acoustic and optical diagnostics of breakdown. The method of laser-induced breakdown spectroscopy (LIBS) for elemental analysis of liquids, along with high efficiency, continues to be less sensitive compared to traditional chemical methods. The paper develops a method of using additional ultrasound irradiation of the laser breakdown area in order to increase the efficiency of LIBS. Using the developed technique, spectral lines of chemical elements such as potassium, manganese, sodium, calcium, etc. were obtained for the first time depending on the frequency and power of ultrasound. It is shown that a sharp increase in the intensity of spectral lines of elements in water during laser breakdown is observed in the field of high-power ultrasound. It indicates an increase in the sensitivity of the combined method of ultrasonic LIBS. Along with the optical spectrum, the spectral and energy characteristics of acoustic emission were studied. An automated complex for hydrophysical and spectral studies is described, which was tested in the Sea of Japan during the voyage No. 81 of the research vessel RV "Professor Gagarinsky" in August 2022.

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“…*a_bulanov@poi.dvo.ru Some results related to the dynamics of the lines of various elements during the development of laser breakdown in the ultrasonic field are described in [11][12][13]. In this paper, the study of this issue and the results obtained allowed us to form the possibilities for creating a device for rapid assessment of the characteristics of aquatic environments.…”

Section: Introductionmentioning

confidence: 98%

Using of ultrasonic spark spectroscopy for in situ elemental analysis of seawater

Bulanov

2023

29th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics

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To conduct elemental analysis of seawater in situ, the method of ultrasonic spark spectroscopy was used, which was implemented as an automated complex for studying spectral optical characteristics and other hydrophysical characteristics of seawater. The complex was tested in expeditionary conditions during the voyage No. 81 of the R/V Professor Gagarinsky in the Sea of Japan in August 2022 and in the 52 voyage of the R/V Academician Boris Petrov in the Atlantic Ocean in October - December 2022. New data on the state of seawater with high spatial resolution have been obtained. The complex can be recommended for in-situ studies of the state of natural water areas.

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Opto-Acoustic Effects by Laser Breakdown of Seawater in an Ultrasonic Field

Cited by 6 publications

References 10 publications

Cavitation Strength, Acoustic Nonlinearity, and Gas Bubble Distribution in Water

Cavitation Strength, Acoustic Nonlinearity, and Gas Bubble Distribution in Water

The Ultrasound Action on the Laser– Induced Breakdown and Spectral Elemental Analyzes of Seawater

Using of ultrasonic spark spectroscopy for in situ elemental analysis of seawater

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