| Issue |
ESAIM: M2AN
Volume 59, Number 5, September-October 2025
|
|
|---|---|---|
| Page(s) | 2515 - 2556 | |
| DOI | https://doi.org/10.1051/m2an/2025067 | |
| Published online | 17 September 2025 | |
The zero inertia limit for the Q-tensor model of liquid crystals: analysis and numerics
1
Department of Mathematics, UC Berkeley, Berkeley, CA 94720, USA
2
Department of Mathematics, University of Wisconsin-Madison, 500 Lincoln Dr, Madison, WI 53706, USA
* Corresponding author: fweber@berkeley.edu
Received:
23
October
2024
Accepted:
30
July
2025
The goal of this work is to rigorously study the zero inertia limit for the Q-tensor model of liquid crystals. Though present in the original derivation of the Ericksen–Leslie equations for nematic liquid crystals, the inertia term of the model is often neglected in analysis and applications. We show well-posedness of the model including inertia and then show using the relative entropy method that solutions of the model with inertia converge to solutions of the model without inertia at a rate σ in L∞(0, T ; H1(Ω)), where σ is the inertial constant. Furthermore, we present an energy stable finite element scheme that is stable and convergent for all σ and study the zero inertia limit numerically. We also present error estimates for the fully discrete scheme with respect to the discretization parameters in time and space.
Mathematics Subject Classification: 65N30 / 76A15 / 82D30 / 35D35 / 35Q70
Key words: Zero inertia limit / Q-tensor model / liquid crystals / relative entropy method
© The authors. Published by EDP Sciences, SMAI 2025
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