抽象线性薛定谔方程的谱定位估计

arXiv - MATH - Dynamical Systems Pub Date : 2024-09-17 DOI:arxiv-2409.10873

Jingxuan Zhang

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引用次数: 0

摘要

我们研究了形式为 $i\partial_t\psi = H_0\psi+V(t)\psi$ 的抽象线性薛定谔方程的传播特性，其中 $H_0$ 是自交算子，$V(t)$ 是随时间变化的势。我们提出了明确的充分条件，确保如果初始状态 $\psi_0$ 相对于参考自交算子 $\phi$ 在 $(-\infty,0]$ 中具有谱支持，那么、对于某些与$\psi_0$无关的$c>0$和所有的$t\ne0$，解$\psi_t$相对于$\phi$仍然在$(-\infty,c|t|]$中得到谱支持，在规范中的余量为$O(|t|^{-n})$。主要条件是$H_0$和$\phi$的多重换元器在操作符规范中均匀有界，直到$(n+1)$阶。然后，我们将这一抽象理论应用于$\mathbb{R}^d$上的一类非局部薛定谔方程，证明任何具有紧凑支持的初始状态的解，在所有$t\ne0$的初始支持周围的线性扩散区域内，都保持近似支持，直到在$L^2$-norm中的多项式抑制尾部。

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Spectral localization estimates for abstract linear Schrödinger equations

We study the propagation properties of abstract linear Schr\"odinger equations of the form $i\partial_t\psi = H_0\psi+V(t)\psi$, where $H_0$ is a self-adjoint operator and $V(t)$ a time-dependent potential. We present explicit sufficient conditions ensuring that if the initial state $\psi_0$ has spectral support in $(-\infty,0]$ with respect to a reference self-adjoint operator $\phi$, then, for some $c>0$ independent of $\psi_0$ and all $t\ne0$, the solution $\psi_t$ remains spectrally supported in $(-\infty,c|t|]$ with respect to $\phi$, up to an $O(|t|^{-n})$ remainder in norm. The main condition is that the multiple commutators of $H_0$ and $\phi$ are uniformly bounded in operator norm up to the $(n+1)$-th order. We then apply the abstract theory to a class of nonlocal Schr\"odinger equations on $\mathbb{R}^d$, proving that any solution with compactly supported initial state remains approximately supported, up to a polynomially suppressed tail in $L^2$-norm, inside a linearly spreading region around the initial support for all $t\ne0$.

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arXiv - MATH - Dynamical Systems

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