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Main Authors: Fu, Hao, Cenedese, Claudia, Lefauve, Adrien, Vallis, Geoffrey K.
Format: Recurso digital
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.15192184
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author Fu, Hao
Cenedese, Claudia
Lefauve, Adrien
Vallis, Geoffrey K.
author_facet Fu, Hao
Cenedese, Claudia
Lefauve, Adrien
Vallis, Geoffrey K.
contents <p>These are the supplemental materials to the paper "A Laboratory Analogy for Mixing by Shallow Cumulus Convection" published in Journal of Fluid Mechanics. DOI: <span>10.1017/jfm.2025.173</span>  </p> <ul> <li>code_raw_data_video_temperature.zip  -  The MATLAB postprocessing code, raw video, and raw temperature profile data.</li> <li>reference_exp_S3_evolution_show.mp4  -  An introductory movie of the reference experiment (S3) with an illustration. </li> <li>change_heating_voltage_F1(speed_x_5.76)_F5.mp4  -  A movie about experiments that change the heating power. Experiment F1 (left panel) is accelerated with a factor of 5.76.</li> <li>change_initial_thickness_T2_T4_T5_(all_speed_x_16).mp4  -  A movie about experiments that change the initial thickness of the syrup layer. All experiments are accelerated with a factor of 16.</li> <li>change_syrup_concentration_S1_S3_S7_(all_speed_x_16).mp4   -  A movie about experiments that change the initial syrup concentration. All experiments are accelerated with a factor of 16. </li> <li>derivation_note.pdf  -  A math derivation note for some equations in the manuscript.</li> </ul> <p>If you have any questions, please contact Dr. Hao Fu: haofu736@gmail.com; haofu@uchicago.edu </p>
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institution Zenodo
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publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Supplemental materials to "A Laboratory Analogy for Mixing by Shallow Cumulus Convection"
Fu, Hao
Cenedese, Claudia
Lefauve, Adrien
Vallis, Geoffrey K.
<p>These are the supplemental materials to the paper "A Laboratory Analogy for Mixing by Shallow Cumulus Convection" published in Journal of Fluid Mechanics. DOI: <span>10.1017/jfm.2025.173</span>  </p> <ul> <li>code_raw_data_video_temperature.zip  -  The MATLAB postprocessing code, raw video, and raw temperature profile data.</li> <li>reference_exp_S3_evolution_show.mp4  -  An introductory movie of the reference experiment (S3) with an illustration. </li> <li>change_heating_voltage_F1(speed_x_5.76)_F5.mp4  -  A movie about experiments that change the heating power. Experiment F1 (left panel) is accelerated with a factor of 5.76.</li> <li>change_initial_thickness_T2_T4_T5_(all_speed_x_16).mp4  -  A movie about experiments that change the initial thickness of the syrup layer. All experiments are accelerated with a factor of 16.</li> <li>change_syrup_concentration_S1_S3_S7_(all_speed_x_16).mp4   -  A movie about experiments that change the initial syrup concentration. All experiments are accelerated with a factor of 16. </li> <li>derivation_note.pdf  -  A math derivation note for some equations in the manuscript.</li> </ul> <p>If you have any questions, please contact Dr. Hao Fu: haofu736@gmail.com; haofu@uchicago.edu </p>
title Supplemental materials to "A Laboratory Analogy for Mixing by Shallow Cumulus Convection"
url https://doi.org/10.5281/zenodo.15192184