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        <datestamp>2025-06-26T08:16:58Z</datestamp>
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              <creatorName>Lo, Sharp C. Y.</creatorName>
              <givenName>Sharp C. Y.</givenName>
              <familyName>Lo</familyName>
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          <titles>
            <title><![CDATA[STL Thoracic Aorta Geometry for HemeLB Simulations]]></title>
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          <subjects>
            <subject>Biomechanical engineering</subject>
            <subject>Computational physiology</subject>
            <subject>Biomedical fluid mechanics</subject>
            <subject>Numerical modelling and mechanical characterisation</subject>
            <subject>geometry models</subject>
            <subject>blood flow simulation</subject>
            <subject>cardiovascular modelling</subject>
            <subject>high-fidelity models</subject>
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            <date dateType="Created">2025-06-26</date>
            <date dateType="Updated">2025-07-30</date>
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          <publicationYear>2025</publicationYear>
          <publisher>University College London</publisher>
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            <description descriptionType="Abstract"><![CDATA[<p dir="ltr">This thoracic aorta geometry is used as a domain of the HemeLB simulations in the paper titled "A Multi-Component, Multi-Physics Computational Model for Solving Coupled Cardiac Electromechanics and Vascular Haemodynamics" by Sharp C. Y. Lo, Alberto Zingaro, Jon W. S. McCullough, Xiao Xue, Pablo Gonzalez-Martin, Balint Joo, Mariano Vazquez, and Peter V. Coveney (2025), where the corresponding author is Prof. Peter V. Coveney (p.v.coveney@ucl.ac.uk).</p><p dir="ltr">The geometry, provided in STL format, is a modification of the 0012_H_AO_H model in Vascular Model Repository (see references below). Users can create the simulation domain for HemeLB in GMY format from this geometry by using the voxeliser available <a href="https://github.com/UCL-CCS/HemePure_tools" rel="noreferrer" target="_blank">here</a>.</p>]]></description>
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