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Main Author: Nishiwaki, Mizuki
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.07055
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author Nishiwaki, Mizuki
author_facet Nishiwaki, Mizuki
contents Efforts to estimate the magma decompression rate from the vesicular texture of volcanic products have progressed through the development of theoretical models and laboratory experiments. The theoretical model is based on nucleation theory, with the surface tension between the melt and bubble nucleus being the parameter that most strongly governs nucleation. Since direct measurement of surface tension is difficult, it has been calculated by inverting the bubble number density from experimental samples using classical or nonclassical nucleation theory formulas. However, in the nonclassical case, which accounts for the supersaturation dependence of surface tension, the pressure at the spinodal limit (where surface tension becomes zero) was previously unknown, necessitating complex mathematical operations. In this study, the spinodal pressure determined from the Gibbs energy curve was substituted into the nonclassical formula by approximating the water-saturated silicate melt as a two-component symmetric regular solution composed of silicate and water. This approach allowed for a more straightforward estimation of surface tension using data from past decompression experiments. Nevertheless, the resulting surface tension values were more scattered than those obtained using the classical formula, suggesting that applying the nonclassical formula to magma vesiculation is not valid at present. Resolving this issue will likely require an integrated understanding of the dependence of surface tension on both supersaturation and bubble radius. Such understanding would enable more accurate estimation of surface tension and contribute to reconciling the discrepancy between theoretical and experimental bubble number density values.
format Preprint
id arxiv_https___arxiv_org_abs_2505_07055
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Surface tension estimation of bubble nuclei in magma using spinodal pressure and nonclassical nucleation theory
Nishiwaki, Mizuki
Geophysics
Materials Science
Applied Physics
Classical Physics
Efforts to estimate the magma decompression rate from the vesicular texture of volcanic products have progressed through the development of theoretical models and laboratory experiments. The theoretical model is based on nucleation theory, with the surface tension between the melt and bubble nucleus being the parameter that most strongly governs nucleation. Since direct measurement of surface tension is difficult, it has been calculated by inverting the bubble number density from experimental samples using classical or nonclassical nucleation theory formulas. However, in the nonclassical case, which accounts for the supersaturation dependence of surface tension, the pressure at the spinodal limit (where surface tension becomes zero) was previously unknown, necessitating complex mathematical operations. In this study, the spinodal pressure determined from the Gibbs energy curve was substituted into the nonclassical formula by approximating the water-saturated silicate melt as a two-component symmetric regular solution composed of silicate and water. This approach allowed for a more straightforward estimation of surface tension using data from past decompression experiments. Nevertheless, the resulting surface tension values were more scattered than those obtained using the classical formula, suggesting that applying the nonclassical formula to magma vesiculation is not valid at present. Resolving this issue will likely require an integrated understanding of the dependence of surface tension on both supersaturation and bubble radius. Such understanding would enable more accurate estimation of surface tension and contribute to reconciling the discrepancy between theoretical and experimental bubble number density values.
title Surface tension estimation of bubble nuclei in magma using spinodal pressure and nonclassical nucleation theory
topic Geophysics
Materials Science
Applied Physics
Classical Physics
url https://arxiv.org/abs/2505.07055