We build a new class of Banach function spaces, whose function norm isρ(p[⋅],δ[⋅](f)=inff=∑k=1∞fk⁡∑k=1∞essinfx∈(0,1)ρp(x)(δ(x)−1fk(⋅)), where ρp(x) denotes the norm of the Lebesgue space of exponent p(x) (assumed measurable and possibly infinite), constant with respect to the variable of f, and δ is measurable, too. Such class contains some known Banach spaces of functions, among which are the classical and the small Lebesgue spaces, and the Orlicz space L(log⁡L)α, α>0. Furthermore we prove the following Hölder-type inequality∫01fgdt≤ρp[⋅]),δ[⋅](f)ρ(p′[⋅],δ[⋅](g), where ρp[⋅]),δ[⋅](f) is the norm of fully measurable grand Lebesgue spaces introduced by Anatriello and Fiorenza in [2]. For suitable choices of p(x) and δ(x) it reduces to the classical Hölder's inequality for the spaces EXP1/α and L(log⁡L)α, α>0.

Fully measurable small Lebesgue spaces

FORMICA, MARIA ROSARIA;GIOVA, Raffaella
2017-01-01

Abstract

We build a new class of Banach function spaces, whose function norm isρ(p[⋅],δ[⋅](f)=inff=∑k=1∞fk⁡∑k=1∞essinfx∈(0,1)ρp(x)(δ(x)−1fk(⋅)), where ρp(x) denotes the norm of the Lebesgue space of exponent p(x) (assumed measurable and possibly infinite), constant with respect to the variable of f, and δ is measurable, too. Such class contains some known Banach spaces of functions, among which are the classical and the small Lebesgue spaces, and the Orlicz space L(log⁡L)α, α>0. Furthermore we prove the following Hölder-type inequality∫01fgdt≤ρp[⋅]),δ[⋅](f)ρ(p′[⋅],δ[⋅](g), where ρp[⋅]),δ[⋅](f) is the norm of fully measurable grand Lebesgue spaces introduced by Anatriello and Fiorenza in [2]. For suitable choices of p(x) and δ(x) it reduces to the classical Hölder's inequality for the spaces EXP1/α and L(log⁡L)α, α>0.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11367/57558
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