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W2078799521 abstract "Experimental studies of the growth of three-dimensional xenon dendrites into a supercooled pure melt are presented. The shape of the dendrite tip and the origin of sidebranching are investigated. It is found that the shape in the tip region is not axisymmetric showing a fourfold symmetry. Four fins grow along the dendrite starting immediately behind the tip. Sidebranches develop at the ridges of these fins. The contour of the fins is not parabolic and can be described in dimensionless units, i.e., measured in units of the tip radius R, by a power law z=a|x${mathrm{|}}^{mathrm{ensuremath{beta}}}$, with a=0.58ifmmodepmelsetextpmfi{}0.04 and ensuremath{beta}=1.67ifmmodepmelsetextpmfi{}0.05, where z is oriented along the growth direction of the dendrite and x is the width of the fins. Selective amplification of thermal noise as well as tip splitting has been discussed in the literature as possible origins of sidebranching. It is found that xenon dendrites grow in a stable mode and do not show any temporal oscillations in either the tip velocity or the curvature of the dendrite tip. Therefore, tip splitting can be excluded as an origin of sidebranching. The distance between the tip and the first sidebranch ${mathit{z}}_{mathrm{SB}}$ of a dendrite has been determined. ${mathit{z}}_{mathrm{SB}}$ is used to estimate the noise strength needed to form sidebranches as observed in experiments with xenon dendrites. The experimental results, i.e., ensuremath{beta}, a, and ${mathit{z}}_{mathrm{SB}}$, have been compared with analytical studies [E. Brener and D. Temkin, Phys. Rev. E 51, 351 (1995)]. Quantitative agreement between experiment and theory is found. It is concluded that the formation of sidebranches is initiated by thermal fluctuations. Dendritic structures may be characterized by parameters that describe the ``integral'' dendrite. The fractal dimension is an example of such an integral parameter. The averaged fractal dimension ${mathit{d}mathit{ifmmodebarelsetextasciimacronfi{}}}_{mathit{f}}$ of the contour of a dendrite was determined for various supercoolings in the range of 20 mKensuremath{le}ensuremath{Delta}Tensuremath{le}150 mK. The contour is fractal over a range of more than two orders of magnitude in length scale. The fractal dimension is ${mathit{d}mathit{ifmmodebarelsetextasciimacronfi{}}}_{mathit{f}}$=1.42ifmmodepmelsetextpmfi{}0.05 and does not depend on supercooling. textcopyright{} 1996 The American Physical Society." @default.
W2078799521 created "2016-06-24" @default.
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W2078799521 date "1996-11-01" @default.
W2078799521 modified "2023-09-25" @default.
W2078799521 title "Shape of the tip and the formation of sidebranches of xenon dendrites" @default.
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W2078799521 cites W1972705471 @default.
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W2078799521 cites W1974673605 @default.
W2078799521 cites W1975629594 @default.
W2078799521 cites W1976319339 @default.
W2078799521 cites W1976833429 @default.
W2078799521 cites W1985396160 @default.
W2078799521 cites W1985903972 @default.
W2078799521 cites W1987074923 @default.
W2078799521 cites W1987709874 @default.
W2078799521 cites W1992442814 @default.
W2078799521 cites W1992846506 @default.
W2078799521 cites W1996063743 @default.
W2078799521 cites W2002304331 @default.
W2078799521 cites W2019034989 @default.
W2078799521 cites W2020357081 @default.
W2078799521 cites W2029631131 @default.
W2078799521 cites W2036360063 @default.
W2078799521 cites W2037064635 @default.
W2078799521 cites W2040712259 @default.
W2078799521 cites W2043370883 @default.
W2078799521 cites W2047342915 @default.
W2078799521 cites W2053600326 @default.
W2078799521 cites W2056213793 @default.
W2078799521 cites W2056651346 @default.
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W2078799521 cites W2058860492 @default.
W2078799521 cites W2060742019 @default.
W2078799521 cites W2068649519 @default.
W2078799521 cites W2069260131 @default.
W2078799521 cites W2069788134 @default.
W2078799521 cites W2070418328 @default.
W2078799521 cites W2072558360 @default.
W2078799521 cites W2072734371 @default.
W2078799521 cites W2074504799 @default.
W2078799521 cites W2077100617 @default.
W2078799521 cites W2080477605 @default.
W2078799521 cites W2081014562 @default.
W2078799521 cites W2081806217 @default.
W2078799521 cites W2082836360 @default.
W2078799521 cites W2090144275 @default.
W2078799521 cites W2093991986 @default.
W2078799521 cites W2148458329 @default.
W2078799521 cites W402858642 @default.
W2078799521 doi "https://doi.org/10.1103/physreve.54.5309" @default.
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