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@comphy-lab

Computational Multiphase Physics (CoMPhy) Lab

We are based at the Department of Physics at Durham University. We explore non-Newtonian free-surface flows and soft matter singularities.
README.md

Computational Multiphase Physics (CoMPhy) Lab

🌊 Exploring Non-Newtonian Free-Surface Flows & Soft Matter Singularities 🌊

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🔬 About CoMPhy Lab

We are a computational physics research group based at the Department of Physics at Durham University. Our research focuses on understanding complex fluid dynamics phenomena through advanced computational methods.

🎯 Research Focus

Multiphase Flows Non-Newtonian Fluids Soft Matter Singularities Free Surface Flows Computational Physics

🛠️ Technical Expertise

Languages & Tools

C C++ Python Fortran MATLAB Julia

Computational Frameworks

Basilisk OpenFOAM LAMMPS Gerris HPC OpenMPI

📊 Lab Activity & Metrics

🔄 Development Workflow

📈 Contribution Trends

🎯 Productivity Metrics

🚀 Featured Projects

Project Description Technologies Status
🌊 Bubble Dynamics Worthington jet formation from bursting bubbles Basilisk C, MPI Active
💧 Droplet Physics Non-Newtonian droplet impact phenomena OpenFOAM, Python Active
🔄 Viscoelastic Flows Complex fluid behavior in confined geometries Basilisk C, Julia Development
Singularity Formation Soft matter singularities and breakup C++, MATLAB Research

📚 Recent Publications

  1. Appleford, T., Sanjay, V., & Jalaal, M. Rheology of Two-Dimensional Dilute Emulsions. Phys. Rev. Fluids, 11, 033607 (2026).
  2. Jana, S., Kolinski, J., Lohse, D., & Sanjay, V. Impacting spheres: from liquid drops to elastic beads. Soft Matter, 22, 2226-2236 (2026).
  3. Dixit, A. K., Zhao, C., Zaleski, S., Lohse, D., & Sanjay, V. Holes in Sheets: Double-Threshold Rupture of Draining Liquid Films. Phys. Rev. Lett., 136, 084001 (2026).

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👥 Community & Collaboration

🤝 Active Contributors

⏰ Contribution Patterns

📰 Recent Activity

🌟 Get Involved

🔬 Open Science Commitment

We believe in open and reproducible science. All our computational tools and datasets are openly available to the research community.

💡 Collaboration Opportunities

  • 🎓 PhD/Postdoc Positions: Check our opportunities page
  • 🤝 Research Collaborations: Contact us for potential collaborations
  • 💻 Code Contributions: See our repositories and contribution guidelines
  • 📚 Use Our Tools: All our software is open-source and documented

📬 Contact Us

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🏆 Lab Statistics

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📊 Detailed GitHub Stats

Advancing computational physics one simulation at a time 🚀

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  1. Bubble-at-Lubis Bubble-at-Lubis Public

    C 2

  2. DropsAtLubis DropsAtLubis Public

    Drops spreading at Lubricant Infused surfaces

    Jupyter Notebook 4 1

  3. Viscoelastic3D Viscoelastic3D Public

    This is the 3D extension of Basilisk C viscoelastic solver

    C 4 1

  4. BurstingBubble_VE BurstingBubble_VE Public archive

    Forked from ayushkumardixit/BurstingBubble_VE

    Here we simulate viscoelastic bursting bubble

    Jupyter Notebook

  5. Elastic-Taylor-Culick Elastic-Taylor-Culick Public

    This is a repository that contains the modified log-conform codes. We use it to parameterize the equations using G and \lambda instead of \eta_p and \lambda. An example with elastic Taylor-Culick r…

    C

  6. Drop-Impact Drop-Impact Public

    Shell 1

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