关于沿切线曲线几乎处处收敛于薛定谔方程初始基的说明

The Journal of Geometric Analysis Pub Date : 2024-09-09 DOI:10.1007/s12220-024-01755-x

Javier Minguillón

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引用次数: 0

摘要

在这个简短的注释中，我们给出了以下结果的简单证明：for （ n\ge 2, ）（underset{t\rightarrow 0}\lim }\、e^{it\Delta }f\left( x+\gamma (t)\right) = f(x)）几乎无处不在，只要（（（gamma））是一条具有（（frac{1}{2}le （alpha）le 1）的霍尔德曲线，并且（（ f\in H^s({\mathbb {R}}^n) ），具有（ s >；\frac{n}{2(n+1)}\).这就是直到终点的最佳规则性范围。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Note on Almost Everywhere Convergence Along Tangential Curves to the Schrödinger Equation Initial Datum

In this short note, we give an easy proof of the following result: for \( n\ge 2, \) \(\underset{t\rightarrow 0}{\lim }\ \,e^{it\Delta }f\left( x+\gamma (t)\right) = f(x) \) almost everywhere whenever \( \gamma \) is an \( \alpha \)-Hölder curve with \( \frac{1}{2}\le \alpha \le 1 \) and \( f\in H^s({\mathbb {R}}^n) \), with \( s > \frac{n}{2(n+1)} \). This is the optimal range of regularity up to the endpoint.

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The Journal of Geometric Analysis

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