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Autori principali: Cheraghalizadeh, J., Tizdast, S., Valizadeh, N., Doostdari, S., Najafi, M. N.
Natura: Preprint
Pubblicazione: 2022
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Accesso online:https://arxiv.org/abs/2211.12132
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author Cheraghalizadeh, J.
Tizdast, S.
Valizadeh, N.
Doostdari, S.
Najafi, M. N.
author_facet Cheraghalizadeh, J.
Tizdast, S.
Valizadeh, N.
Doostdari, S.
Najafi, M. N.
contents In this study, we experimentally study the dried pattern droplets of coffee with and without sugar. We statistically analyze the rough surface formed after the stain becomes dried. The amount of sugar is controlled by the mass $m$. Along with the formation of the coffee ring, we discuss the Marangoni effect, in the system, and also analyzed the statistics of the cracks. For large enough $m$ values, the exponents approach to the ones for the Gaussian free field (GFF) (the loop fractal dimension $\frac{3}{2}$, loop and gyration radius distribution exponents $τ_l=\frac{7}{3}$ and $τ_r=3$ respectively). Using the multifractal analysis (MA) for the mass configuration of the dried pattern, we numerically show that, the mass-fractal dimension is $1.76\pm 0.04$ for the case without sugar, which decreases increasing the sugar. This is explained by the fact that the droplet becomes more hydrophilic, resulting in more sparse spatial patterns, in agreement compatible with the contact angle analysis.
format Preprint
id arxiv_https___arxiv_org_abs_2211_12132
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Statistical analysis of the drying pattern of coffee
Cheraghalizadeh, J.
Tizdast, S.
Valizadeh, N.
Doostdari, S.
Najafi, M. N.
Statistical Mechanics
In this study, we experimentally study the dried pattern droplets of coffee with and without sugar. We statistically analyze the rough surface formed after the stain becomes dried. The amount of sugar is controlled by the mass $m$. Along with the formation of the coffee ring, we discuss the Marangoni effect, in the system, and also analyzed the statistics of the cracks. For large enough $m$ values, the exponents approach to the ones for the Gaussian free field (GFF) (the loop fractal dimension $\frac{3}{2}$, loop and gyration radius distribution exponents $τ_l=\frac{7}{3}$ and $τ_r=3$ respectively). Using the multifractal analysis (MA) for the mass configuration of the dried pattern, we numerically show that, the mass-fractal dimension is $1.76\pm 0.04$ for the case without sugar, which decreases increasing the sugar. This is explained by the fact that the droplet becomes more hydrophilic, resulting in more sparse spatial patterns, in agreement compatible with the contact angle analysis.
title Statistical analysis of the drying pattern of coffee
topic Statistical Mechanics
url https://arxiv.org/abs/2211.12132