3, 1025–1053

Tatsuki Mori, Tohru Tsujikawa, Shoji Yotsutani,Representation formulas for stationary solutions of a cell polarization model, Japan Journal of Industrial, Applied Mathematics39( · 2022

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Geometry-induced pulse dynamics in a bulk-surface reaction-diffusion system for cell polarization

math.AP · 2026-05-11 · unverdicted · novelty 7.0

The slow drift of wave-pinned pulses in this cell polarization model is a gradient flow whose geometry-dependent potential is given by the Neumann Green's function, producing nontrivial stationary positions and pitchfork bifurcations in dumbbell and perforated domains.

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Geometry-induced pulse dynamics in a bulk-surface reaction-diffusion system for cell polarization math.AP · 2026-05-11 · unverdicted · none · ref 27
The slow drift of wave-pinned pulses in this cell polarization model is a gradient flow whose geometry-dependent potential is given by the Neumann Green's function, producing nontrivial stationary positions and pitchfork bifurcations in dumbbell and perforated domains.

3, 1025–1053

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