Carro, M.; Pick, L.; Soria, J.; Stepanov, V. D. On embeddings between classical Lorentz spaces. (English) Zbl 0996.46013 Math. Inequal. Appl. 4, No. 3, 397-428 (2001). For a nonnegative measurable function \(\nu\) on \((0, \infty)\) (a “weight”), the Lorentz spaces \(\Lambda^p (\nu)\) and \(\Lambda^{p,\infty} (\nu)\) are determined by the norms \(\|f\|_{\Lambda^p (\nu)} =(\int^\infty _0 (f^* (t))^p \nu(t) dt)^{1/p}\) and \(\|f\|_{\Lambda^{p,\infty} (\nu)} =\sup_{0<t<\infty} f^*(t)V(t)\), where \(V(t)=\int_0 ^\infty \nu(s) ds\). Replacing \(f^*\) by \(f^{**}(t)=t^{-1}\int_0 ^\infty f^* (s) ds\), we obtain the definitions of the spaces \(\Gamma^p (\nu)\) and \(\Gamma^{p,\infty} (\nu)\). The authors discuss various embeddings among these spaces. The main emphasis is on the embedding of the form \(\Gamma^{p,\infty} (\nu)\to\Lambda^p (w)\) (this case has not been considered previously). As a consequence, the authors characterize the cases where the norm of \(\Lambda^1 (\nu)\) can be expressed in terms of \(f^{**}\). Reviewer: S.V.Kislyakov (St.Peterburg) Cited in 82 Documents MSC: 46E30 Spaces of measurable functions (\(L^p\)-spaces, Orlicz spaces, Köthe function spaces, Lorentz spaces, rearrangement invariant spaces, ideal spaces, etc.) 26D15 Inequalities for sums, series and integrals Keywords:Lorentz spaces; continuous embeddings; weighted inequalities for nonincreasing functions PDFBibTeX XMLCite \textit{M. Carro} et al., Math. Inequal. Appl. 4, No. 3, 397--428 (2001; Zbl 0996.46013) Full Text: DOI