Yue Sun
@yuesun.bsky.social
Van Vleck Visiting Assistant Professor @ UW–Madison | paper marbler
Fluid/solid simulation, math modeling, and scientific visualization 💻🌊🎨
PhD in Applied Math @ Harvard SEAS
Fluid/solid simulation, math modeling, and scientific visualization 💻🌊🎨
PhD in Applied Math @ Harvard SEAS
Reposted by Yue Sun
🚀The Scalable MetaStructures Laboratory at Cornell University is hiring!
📅Preferred start: Spring or Fall 2026
📌Deadline for official Cornell application: November 1, 2025
📎Application details at Fani Derveni’s LinkedIn: link post in the comments
📅Preferred start: Spring or Fall 2026
📌Deadline for official Cornell application: November 1, 2025
📎Application details at Fani Derveni’s LinkedIn: link post in the comments
September 15, 2025 at 1:15 PM
🚀The Scalable MetaStructures Laboratory at Cornell University is hiring!
📅Preferred start: Spring or Fall 2026
📌Deadline for official Cornell application: November 1, 2025
📎Application details at Fani Derveni’s LinkedIn: link post in the comments
📅Preferred start: Spring or Fall 2026
📌Deadline for official Cornell application: November 1, 2025
📎Application details at Fani Derveni’s LinkedIn: link post in the comments
🎉 Happy to share that my longest Ph.D. project, “A fully-integrated lattice Boltzmann method for fluid–structure interaction”, is online! We develop a fully Eulerian method to simulate many squishy solids in fluids. (1/3)
📑 Paper: authors.elsevier.com/c/1kWjb508I1-63
👩🏻💻 Code: github.com/yue-sun/lbrmt
📑 Paper: authors.elsevier.com/c/1kWjb508I1-63
👩🏻💻 Code: github.com/yue-sun/lbrmt
January 30, 2025 at 3:54 PM
🎉 Happy to share that my longest Ph.D. project, “A fully-integrated lattice Boltzmann method for fluid–structure interaction”, is online! We develop a fully Eulerian method to simulate many squishy solids in fluids. (1/3)
📑 Paper: authors.elsevier.com/c/1kWjb508I1-63
👩🏻💻 Code: github.com/yue-sun/lbrmt
📑 Paper: authors.elsevier.com/c/1kWjb508I1-63
👩🏻💻 Code: github.com/yue-sun/lbrmt
Our paper on our 2023 GFM video "The hydrodynamics of marbling art" is online! Watch the fluid dynamics in motion in the video linked in the paper. And thanks to my collaborators John Bush, @sespagnolie.bsky.social, and Chris Rycroft!
doi.org/10.1103/Phys...
doi.org/10.1103/Phys...
Hydrodynamics of marbling art
This paper is associated with a video winner of a 2023 American Physical Society's Division of Fluid Dynamics (DFD) Milton van Dyke Award for work presented at the DFD Gallery of Fluid Motion. The ori...
doi.org
November 22, 2024 at 9:45 PM
Our paper on our 2023 GFM video "The hydrodynamics of marbling art" is online! Watch the fluid dynamics in motion in the video linked in the paper. And thanks to my collaborators John Bush, @sespagnolie.bsky.social, and Chris Rycroft!
doi.org/10.1103/Phys...
doi.org/10.1103/Phys...
Reposted by Yue Sun
📣 Check out our latest paper on how textile hinges enable mechanism-like behaviors in large kirigami, providing a scalable platform for kinematic-based shape-morphing designs (even 3D).
📜 Paper: doi.org/10.1002/adfm... (no paywall arxiv.org/abs/2408.16059)
👨💻 Repository: github.com/bertoldi-col...
📜 Paper: doi.org/10.1002/adfm... (no paywall arxiv.org/abs/2408.16059)
👨💻 Repository: github.com/bertoldi-col...
Textile Hinges Enable Extreme Properties of Kirigami Metamaterials
Textile hinges provide a scalable platform for creating kirigami metamaterials with mechanism-like behaviors, bridging the gap between computationally based kinematic design strategies and existing f....
doi.org
November 22, 2024 at 5:09 AM
📣 Check out our latest paper on how textile hinges enable mechanism-like behaviors in large kirigami, providing a scalable platform for kinematic-based shape-morphing designs (even 3D).
📜 Paper: doi.org/10.1002/adfm... (no paywall arxiv.org/abs/2408.16059)
👨💻 Repository: github.com/bertoldi-col...
📜 Paper: doi.org/10.1002/adfm... (no paywall arxiv.org/abs/2408.16059)
👨💻 Repository: github.com/bertoldi-col...