A Large Deviation Principle for the Stochastic Heat Equation with General Rough Noise

IF 0.8 4区 数学 Q3 STATISTICS & PROBABILITY Journal of Theoretical Probability Pub Date : 2023-01-06 DOI:10.1007/s10959-022-01228-3
Ruinan Li, Ran Wang, Beibei Zhang
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Abstract

We study the Freidlin–Wentzell large deviation principle for the nonlinear one-dimensional stochastic heat equation driven by a Gaussian noise: $$\begin{aligned} \frac{\partial u^{{\varepsilon }}(t,x)}{\partial t}=\frac{\partial ^2 u^{{\varepsilon }}(t,x)}{\partial x^2}+\sqrt{{\varepsilon }}\sigma (t, x, u^{{\varepsilon }}(t,x))\dot{W}(t,x),\quad t> 0,\, x\in \mathbb {R}, \end{aligned}$$ where $$\dot{W}$$ is white in time and fractional in space with Hurst parameter $$H\in \left( \frac{1}{4},\frac{1}{2}\right) $$ . Recently, Hu and Wang (Ann Inst Henri Poincaré Probab Stat 58(1):379–423, 2022) have studied the well-posedness of this equation without the technical condition of $$\sigma (0)=0$$ which was previously assumed in Hu et al. (Ann Probab 45(6):4561–4616, 2017). We adopt a new sufficient condition proposed by Matoussi et al. (Appl Math Optim 83(2):849–879, 2021) for the weak convergence criterion of the large deviation principle.
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一般粗糙噪声下随机热方程的大偏差原理
我们研究了由高斯噪声驱动的非线性一维随机热方程的Freidlin-Wentzell大偏差原理:$$\begin{aligned} \frac{\partial u^{{\varepsilon }}(t,x)}{\partial t}=\frac{\partial ^2 u^{{\varepsilon }}(t,x)}{\partial x^2}+\sqrt{{\varepsilon }}\sigma (t, x, u^{{\varepsilon }}(t,x))\dot{W}(t,x),\quad t> 0,\, x\in \mathbb {R}, \end{aligned}$$,其中$$\dot{W}$$在时间上是白色的,在空间上是分数的,Hurst参数$$H\in \left( \frac{1}{4},\frac{1}{2}\right) $$。最近,Hu和Wang (Ann Inst Henri poincar Probab Stat 58(1):379 - 423,2022)研究了该方程的适定性,而不需要Hu等人(Ann Probab 45(6): 4561-4616, 2017)先前假设的$$\sigma (0)=0$$技术条件。我们采用Matoussi et al.(应用数学优化83(2):849-879,2021)提出的一个新的充分条件作为大偏差原理的弱收敛准则。
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来源期刊
Journal of Theoretical Probability
Journal of Theoretical Probability 数学-统计学与概率论
CiteScore
1.50
自引率
12.50%
发文量
65
审稿时长
6-12 weeks
期刊介绍: Journal of Theoretical Probability publishes high-quality, original papers in all areas of probability theory, including probability on semigroups, groups, vector spaces, other abstract structures, and random matrices. This multidisciplinary quarterly provides mathematicians and researchers in physics, engineering, statistics, financial mathematics, and computer science with a peer-reviewed forum for the exchange of vital ideas in the field of theoretical probability.
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