Long-time asymptotics and the radiation condition with time-periodic boundary conditions for linear evolution equations on the half-line and experiment

IF 2.6 2区数学 Q1 MATHEMATICS, APPLIED

Studies in Applied Mathematics Pub Date : 2023-12-22 DOI:10.1111/sapm.12665

Yifeng Mao, Dionyssios Mantzavinos, Mark A. Hoefer

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引用次数: 0

Abstract

The asymptotic Dirichlet-to-Neumann (D-N) map is constructed for a class of scalar, constant coefficient, linear, third-order, dispersive equations with asymptotically time/periodic Dirichlet boundary data and zero initial data on the half-line, modeling a wavemaker acting upon an initially quiescent medium. The large time $t$ asymptotics for the special cases of the linear Korteweg-de Vries and linear Benjamin–Bona–Mahony (BBM) equations are obtained. The D-N map is proven to be unique if and only if the radiation condition that selects the unique wave number branch of the dispersion relation for a sinusoidal, time-dependent boundary condition holds: (i) for frequencies in a finite interval, the wave number is real and corresponds to positive group velocity, and (ii) for frequencies outside the interval, the wave number is complex with positive imaginary part. For fixed spatial location $x$ , the corresponding asymptotic solution is (i) a traveling wave or (ii) a spatially decaying, time-periodic wave. The linearized BBM asymptotics are found to quantitatively agree with viscous core-annular fluid experiments.

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半线上线性演化方程的长时渐近线和具有时周期边界条件的辐射条件及实验

为一类标量、常数系数、线性、三阶、分散方程构建了渐近 Dirichlet 到 Neumann（D-N）图，这些方程具有渐近时间/周期 Dirichlet 边界数据和半线上的零初始数据，模拟了作用于初始静态介质的造浪机。得到了线性 Korteweg-de Vries 和线性 Benjamin-Bona-Mahony (BBM) 方程特例的大时间 t 渐近线。当且仅当为正弦、随时间变化的边界条件选择弥散关系的唯一波数分支的辐射条件成立时，D-N 图才被证明是唯一的：(i) 对于有限区间内的频率，波数为实数并对应于正群速度；(ii) 对于区间外的频率，波数为复数并带有正虚部。对于固定的空间位置 x，相应的渐近解是 (i) 行波或 (ii) 空间衰减的时间周期波。研究发现，线性化的 BBM 渐近线与粘性岩心-环状流体实验在数量上相吻合。

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来源期刊

Studies in Applied Mathematics 数学-应用数学

CiteScore

4.30

自引率

3.70%

发文量

审稿时长

>12 weeks

期刊介绍： Studies in Applied Mathematics explores the interplay between mathematics and the applied disciplines. It publishes papers that advance the understanding of physical processes, or develop new mathematical techniques applicable to physical and real-world problems. Its main themes include (but are not limited to) nonlinear phenomena, mathematical modeling, integrable systems, asymptotic analysis, inverse problems, numerical analysis, dynamical systems, scientific computing and applications to areas such as fluid mechanics, mathematical biology, and optics.