Almost-Orthogonality in Lp Spaces: A Case Study with Grok

Abstract

Carbery proposed the following sharpened form of triangle inequality for many functions: for any p 2 and any finite sequence (fj)j⊂ Lp we have \[ \|Σj fj\|p \ \ (j Σk αjk\,c)1/p' (Σj \|fj\|pp)1/p, \] where c=2, 1/p+1/p'=1, and αjk=\|fjfk\|p/2\|fj\|p\|fk\|p. In the first part of this paper we construct a counterexample showing that this inequality fails for every p>2. We then prove that if an estimate of the above form holds, the exponent must satisfy c p'. Finally, at the critical exponent c=p', we establish the inequality for all integer values p 2. In the second part of the paper we obtain a sharp three-function bound \[ \|Σj=13 fj\|p \ \ (1+2c(p))1/p' (Σj=13 \|fj\|pp)1/p, \] where p ≥ 3, c(p) = 2(2)(p-2)(3)+2(2) and =(f1,f2,f3)∈[0,1] quantifies the degree of orthogonality among f1,f2,f3. The exponent c(p) is optimal, and improves upon the power r(p) = 65p-4 obtained previously by Carlen, Frank, and Lieb. Some intermediate lemmas and inequalities appearing in this work were explored with the assistance of the large language model Grok.