Adilson E. Motter
@adilson_motter
Complex systems and networks. Professor of Physics and Director of the Center for Network Dynamics, Northwestern University: https://cnd.northwestern.edu
If you couple two systems with bistability between oscillations of distinct effective frequencies, you have to make them different for the distinct states to synchronize in frequency. Work with @adilson_motter and @KissGroupSLU out in @ScienceAdvances. doi.org/10.1126/sciadv…
"AI identifies key gene sets that cause complex disease" news.northwestern.edu/stories/2025/0… Nice news article on our new approach to identify gene sets involved in polygenic traits & how it can serve as a tool to for the development of new multi-target treatments for complex diseases.
APPLY NOW: Full Professor of Complex Dynamic Network focus aspects on mobility, energy, resilience, self-organization & more full details here: jobs.aau.at/en/job/full-pr… please help spread the news, @gin_bianconi @thilogross @adilson_motter @martikagv @stevenstrogatz…
In just a couple of days, the grand finale of the NetSci Colloquia of this academic year, with none other than living legend Alain Barrat. Register here: iu.zoom.us/webinar/regist…
Yes, oscillatory—even chaotic—flow rates in microfluidic networks without external modulation, soft structures, or fluid compressibility. Just fluid inertia + network geometry.
In microfluidic networks, flow oscillations and chaos can emerge even without external modulation or deformable structures. @adilson_motter and colleagues show that fluid inertia drives the responsible mechanism, expanding on-chip flow control design. 🔗 go.aps.org/4iQkeYx