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| Main Authors: | , , |
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| Format: | Preprint |
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2025
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2507.01159 |
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| _version_ | 1866913922135621632 |
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| author | Hausenblas, Erika Högele, Michael A. Tegegn, Tesfalem A. |
| author_facet | Hausenblas, Erika Högele, Michael A. Tegegn, Tesfalem A. |
| contents | Chemical and biochemical reactions can exhibit surprisingly different behaviours, ranging from multiple steady-state solutions to oscillatory solutions and chaotic behaviours. These types of systems are often modelled by a system of reaction-diffusion equations coupled by a nonlinearity. In the article, we study the existence of stochastically perturbed equations of this type. In particular, we show the existence of a probabilitic weak solution of the following stochastic system \begin{align*} \dot {u} & = r_1\,Δu+ a_1\, u + b_1 -c_1\, u\cdot v^q+σ_1\, g_1(u)\circ \dot W_1, \\ \dot{v} & = r_2 \,A v + a_2\, v + b_2 +c_2\, u\cdot v^q + σ_2\, g_2(v)\circ \dot W_2, \end{align*} where $r_i,b_i,c_i, σ_i>0$, $a_i\in\mathbb{R}$, and $g_i$ are linear, $i=1,2$, and the exponent $q\geq 1$. The operator $A=-(-Δ)^{\aleph/2}$ is a fractional power of the Laplacian, $1<\aleph \le2$. The main result is obtained by a Schauder-Tychonoff type fixed point theorem for the controlled versions of the laws of the respective (infinite dimensional) Ornstein-Uhlenbeck system, from which we infer the existence of a weak solution of the coupled system. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2507_01159 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Weak solutions for coupled reaction-diffusion systems with pattern formation by a stochastic fixed point theorem Hausenblas, Erika Högele, Michael A. Tegegn, Tesfalem A. Analysis of PDEs Probability Chemical and biochemical reactions can exhibit surprisingly different behaviours, ranging from multiple steady-state solutions to oscillatory solutions and chaotic behaviours. These types of systems are often modelled by a system of reaction-diffusion equations coupled by a nonlinearity. In the article, we study the existence of stochastically perturbed equations of this type. In particular, we show the existence of a probabilitic weak solution of the following stochastic system \begin{align*} \dot {u} & = r_1\,Δu+ a_1\, u + b_1 -c_1\, u\cdot v^q+σ_1\, g_1(u)\circ \dot W_1, \\ \dot{v} & = r_2 \,A v + a_2\, v + b_2 +c_2\, u\cdot v^q + σ_2\, g_2(v)\circ \dot W_2, \end{align*} where $r_i,b_i,c_i, σ_i>0$, $a_i\in\mathbb{R}$, and $g_i$ are linear, $i=1,2$, and the exponent $q\geq 1$. The operator $A=-(-Δ)^{\aleph/2}$ is a fractional power of the Laplacian, $1<\aleph \le2$. The main result is obtained by a Schauder-Tychonoff type fixed point theorem for the controlled versions of the laws of the respective (infinite dimensional) Ornstein-Uhlenbeck system, from which we infer the existence of a weak solution of the coupled system. |
| title | Weak solutions for coupled reaction-diffusion systems with pattern formation by a stochastic fixed point theorem |
| topic | Analysis of PDEs Probability |
| url | https://arxiv.org/abs/2507.01159 |