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Orientation-dependent density fingering in an acidity front

Orientation-dependent density fingering in an acidity front
Orientation-dependent density fingering in an acidity front
Density fingering of the chlorite–tetrathionate reaction is studied experimentally in a Hele-Shaw cell. It is shown that the dispersion curve describing the linear regime of the evolution of pattern formation is strongly affected by the orientation of the cell. Both the growth rate and the range of wave numbers associated with the unstable modes decrease on increasing the tilt angle from the vertical. From the dispersion curves, the dependence of the most unstable mode on the tilt angle is determined experimentally and compared with that of existing theories. The ratio of the marginal wave number, separating the stable and unstable modes, to the wave number with the maximum growth rate indicates that the high-frequency disturbances are stabilized by the diffusion of the components in the reaction.
0021-9606
4399 - 4402
Horváth, Dezső
9030b786-a7dd-483c-a336-5471279608ae
Bánsági, Tamás
3984187d-60fd-47f2-b6cb-f312dcedadae
Tóth, Ágota
0fec3cc5-69fa-4377-9140-46a2f9c04cbb
Horváth, Dezső
9030b786-a7dd-483c-a336-5471279608ae
Bánsági, Tamás
3984187d-60fd-47f2-b6cb-f312dcedadae
Tóth, Ágota
0fec3cc5-69fa-4377-9140-46a2f9c04cbb

Horváth, Dezső, Bánsági, Tamás and Tóth, Ágota (2002) Orientation-dependent density fingering in an acidity front. The Journal of Chemical Physics, 117, 4399 - 4402. (doi:10.1063/1.1497163).

Record type: Article

Abstract

Density fingering of the chlorite–tetrathionate reaction is studied experimentally in a Hele-Shaw cell. It is shown that the dispersion curve describing the linear regime of the evolution of pattern formation is strongly affected by the orientation of the cell. Both the growth rate and the range of wave numbers associated with the unstable modes decrease on increasing the tilt angle from the vertical. From the dispersion curves, the dependence of the most unstable mode on the tilt angle is determined experimentally and compared with that of existing theories. The ratio of the marginal wave number, separating the stable and unstable modes, to the wave number with the maximum growth rate indicates that the high-frequency disturbances are stabilized by the diffusion of the components in the reaction.

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More information

Published date: 1 September 2002

Identifiers

Local EPrints ID: 505693
URI: http://eprints.soton.ac.uk/id/eprint/505693
DOI: doi:10.1063/1.1497163
ISSN: 0021-9606
PURE UUID: c93fd79d-d08c-4a14-824e-0c5f40ea4b95
ORCID for Tamás Bánsági: ORCID iD orcid.org/0009-0000-0279-2353

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Date deposited: 16 Oct 2025 16:51
Last modified: 17 Oct 2025 02:17

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Contributors

Author: Dezső Horváth
Author: Tamás Bánsági ORCID iD
Author: Ágota Tóth

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