Silke Henkes
Associate Professor
- Name
- Dr. S.E. Henkes
- Telephone
- +31 71 527 5501
- shenkes@lorentz.leidenuniv.nl
Silke Henkes work focuses on theoretical soft condensed matter physics and biophysics.
Silke Henkes began her career with a PhD centered on the statistical mechanics of the granular jamming transition, with Bulbul Chakraborty at Brandeis University. She widened her approach to frictional and thermal systems during her postdoc with Wim van Saarloos at Leiden University, and continues to explore frictional jamming as a rigidity transition. Since 2010, she has focused on the emerging field of active matter, including Active Brownian particles, alignment, and motion on curved surfaces, work she began as a postdoc with Cristina Marchetti at Syracuse University.
After Lecturer positions at the University of Aberdeen and the University of Bristol, she joined Leiden University in 2022.
Her current work centers on the mechanics of active and living materials, and in particular on building microscopic models of epithelial cell sheets using particle-based and vertex models.
Read more about Henke's research group on their website.
Associate Professor
- Science
- Leiden Instituut Onderzoek Natuurkunde
- LION - Theoretical Physics
- Divoux T., AgoritsasE., Aime S., BarentinC., Barrat J-L., Benzi R., Berthier L., Bi D., Birolif G., BonnD., BourrianneP., Bouzid M., Del Gado E., Delanoe¨-Ayari H., Farain K., Fielding S., Fuchs M., van der Gucht J., Henkes S. & Martens. K. et al (2024), Ductile-to-brittle transition and yielding in soft amorphous materials: perspectives and open questions, Soft Matter 20(6868): 1-22.
- Shee A., Henkes S.E. & Huepe C. (2024), Emergent mesoscale correlations in active solids with noisy chiral dynamics, Soft Matter 20(39): 7865-7879.
- Melio J., Henkes S.E. & Kraft D. J. (2024), Soft and stiff normal modes in floppy colloidal square lattices, Physical Review Letters 132: 078202.
- Beatrici C., Kirch C., Henkes S.E., Graner F. & Brunnet L. (2023), Comparing individual-based models of collective cell motion in a benchmark flow geometry, Soft Matter 19(29): 5583-5601.
- Ioratim-Uba A., Liverpool T.B. & Henkes S.E. (2023), Mechanochemical active feedback generates convergence extension in epithelial tissue, Physical Review Letters 131: 238301.
- Sknepnek R., Djafer-Cherif I., Chuai M., Weijer C. & Henkes S.E. (2023), Generating active T1 transitions through mechanochemical feedback, eLife 12: 79862.
- Ioratim-Uba A., Loisy A., Henkes S.E. & Liverpool T.B. (2022), The nonlinear motion of cells subject to external forces, Soft Matter 18(47): 9008-9016.