Functional Ghobber-Jaming Uncertainty Principle
Abstract
Let and be two p-orthonormal bases for a finite dimensional Banach space . Let be such that \begin{align*} o(M)^\frac{1}{q}o(N)^\frac{1}{p}< \frac{1}{\displaystyle \max_{1\leq j,k\leq n}|g_k(\tau_j) |}, \end{align*} where is the conjugate index of . Then for all , we show that \begin{align}\label{FGJU} (1) \quad \quad \quad \quad \|x\|\leq \left(1+\frac{1}{1-o(M)^\frac{1}{q}o(N)^\frac{1}{p}\displaystyle\max_{1\leq j,k\leq n}|g_k(\tau_j)|}\right)\left[\left(\sum_{j\in M^c}|f_j(x)|^p\right)^\frac{1}{p}+\left(\sum_{k\in N^c}|g_k(x) |^p\right)^\frac{1}{p}\right]. \end{align} We call Inequality (1) as \textbf{Functional Ghobber-Jaming Uncertainty Principle}. Inequality (1) improves the uncertainty principle obtained by Ghobber and Jaming \textit{[Linear Algebra Appl., 2011]}.
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Cite
@article{arxiv.2306.01014,
title = {Functional Ghobber-Jaming Uncertainty Principle},
author = {K. Mahesh Krishna},
journal= {arXiv preprint arXiv:2306.01014},
year = {2025}
}
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