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Perversions in Helical Rods : From Plant-Inspired Rod Mechanics to Curvature Generation in Tendrils - Emilien Dily (Laboratoire Reproduction et Développement des Plantes, Lyon)

Seminar

On November 18, 2024

dily
(a) Cucumber tendrils presenting two helices of opposite chiralities linked by a perversion (b) Elastome- ric rod presenting a perversion (c) Paired perversion structures in a helical rod (d) Periodic perversion structures : Godet solutions.

Emilien Dily (Laboratoire Reproduction et Développement des Plantes, Lyon)

Helical rods (elastic springs) provide a simple system that highlights complex non-linear phenomena occurring right at our fingertips. The unwinding of helical rods leads to the formation of a perversion (Video). This topological defect connects a helix of positive chirality to one of negative chirality, as seen in the tendrils of climbing plants such as cucumbers or vines (Fig. 1(a)). Upon rotation, the perversion can migrate along the rod, enabling a complete reversal of helix chirality (Fig. 1(b)). Mechanical measurements conducted during this chirality reversal revealed that the perversion migration occurs at a pseudo-constant axial torque [1]. The overall mechanical behavior of the system, along with a phase diagram of coexisting helices with opposite chiralities, was reproduced using a biphasic model. This model consists of two phases—helices of opposite chiralities—linked by the perversion as the interface. In this context, configurations with multiple perversions can also be obtained (Fig. 1(c,d)). Finally, the writhing instability observed in plants is revisited within our model, providing a mechanical framework to study the dynamics of tendrils and the curvature generation that leads to helical patterns in tendril-bearing plants.

[1] Emilien Dilly, Sébastien Neukirch, Julien Derr, and Drazen Zanchi Phys. Rev. Lett. 131, 177201

Contact: Emmanuel Siéfert

Date

On November 18, 2024
Complément date

11:00

Localisation

Complément lieu

LIPhy, salle de conférence

Submitted on October 16, 2024

Updated on October 16, 2024