Banding in the margins of basaltic dykes - cooling, multiple magma pulses [software]

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Banding in the margins of basaltic dykes indicates pulsatory propagation during emplacement [dataset and software]

MATLAB script: a 1D thermal model showing the evolution of the thermal profile and estimating the solidification time for a sequence of magma pulses.

Resource type: Software
Contributors: Allgood, Ceri ¹
Mathias, Simon ¹

¹ Durham University, UK
Funder: Natural Environment Research Council
Research methods: User can specify parameters such as the widths of the magma pulses, starting temperature and host rock temperature. Model finds the evolution of thermal profile over time, and the position of the solidification front, then calculates the time required for each magma pulse to fully solidify.
Other description: MATLAB script: a 1D thermal model showing the evolution of the thermal profile and estimating the solidification time for a sequence of magma pulses.
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Language: English
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Identifier: ark:/32150/r27d278t09q
Rights: Open Data Commons - Open Database (ODC-ODbL)
Publisher: Durham University
Date Created: 2023-10-11

Depositor: C. Allgood
Date Uploaded: 11 October 2023, 11:10:14
Date Modified: 11 October 2023, 14:10:09
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Related Files: Cooling_latentHeat.m
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File size: 6371

Filename: Cooling_latentHeat_pulses.m

Original checksum: af5b0c8f08e10e176c62f73bc3c70438

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