https://www.mscand.dk/issue/feedMATHEMATICA SCANDINAVICA2019-07-23T02:56:38+02:00Andrew Swannmscand@math.au.dkOpen Journal Systemshttps://www.mscand.dk/article/view/111146Characterisation and applications of $\Bbbk$-split bimodules2019-07-23T02:56:34+02:00Volodymyr Mazorchukmscand@math.au.dkVanessa Miemietzmscand@math.au.dkXiaoting Zhangmscand@math.au.dk<p>We describe the structure of bimodules (over finite dimensional algebras) which have the property that the functor of tensoring with such a bimodule sends any module to a projective module. The main result is that all such bimodules are $\Bbbk $-split in the sense that they factor (inside the tensor category of bimodules) over $\Bbbk $-vector spaces. As one application, we show that any simple $2$-category has a faithful $2$-representation inside the $2$-category of $\Bbbk $-split bimodules. As another application, we classify simple transitive $2$-representations of the $2$-category of projective bimodules over the algebra $\Bbbk [x,y]/(x^2,y^2,xy)$.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/111923A note on the van der Waerden complex2019-07-23T02:56:22+02:00Becky Hoopermscand@math.au.dkAdam Van Tuylmscand@math.au.dk<p>Ehrenborg, Govindaiah, Park, and Readdy recently introduced the van der Waerden complex, a pure simplicial complex whose facets correspond to arithmetic progressions. Using techniques from combinatorial commutative algebra, we classify when these pure simplicial complexes are vertex decomposable or not Cohen-Macaulay. As a corollary, we classify the van der Waerden complexes that are shellable.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/111889A family of reflexive vector bundles of reduction number one2019-07-23T02:56:26+02:00Cleto B. Miranda-Netomscand@math.au.dk<p>A difficult issue in modern commutative algebra asks for examples of modules (more interestingly, reflexive vector bundles) having prescribed reduction number $r\geq 1$. The problem is even subtler if in addition we are interested in good properties for the Rees algebra. In this note we consider the case $r=1$. Precisely, we show that the module of logarithmic vector fields of the Fermat divisor of any degree in projective $3$-space is a reflexive vector bundle of reduction number $1$ and Gorenstein Rees ring.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/110766The attainment set of the $\varphi$-envelope and genericity properties2019-07-23T02:56:38+02:00A. Cabotmscand@math.au.dkA. Jouranimscand@math.au.dkL. Thibaultmscand@math.au.dkD. Zagrodnymscand@math.au.dk<p>The attainment set of the $\varphi$-envelope of a function at a given point is investigated. The inclusion of the attainment set of the $\varphi$-envelope of the closed convex hull of a function into the attainment set of the function is preserved in sufficiently general settings to encompass the case $\varphi$ being a norm in a power not less than $1$. The non-emptiness of the attainment set is guaranteed on generic subsets of a given space, in several fundamental cases.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/111424A general one-sided compactness result for interpolation of bilinear operators2019-07-23T02:56:30+02:00Eduardo Brandani da Silvamscand@math.au.dkDicesar Lass Fernandezmscand@math.au.dk<p>The behavior of bilinear operators acting on the interpolation of Banach spaces in relation to compactness is analyzed, and an one-sided compactness theorem is obtained for bilinear operators interpolated by the ρ interpolation method.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/112091The complex moment problem: determinacy and extendibility2019-07-23T02:56:18+02:00Dariusz Cichońmscand@math.au.dkJan Stochelmscand@math.au.dkFranciszek Hugon Szafraniecmscand@math.au.dk<p>Complex moment sequences are exactly those which admit positive definite extensions on the integer lattice points of the upper diagonal half-plane. Here we prove that the aforesaid extension is unique provided the complex moment sequence is determinate and its only representing measure has no atom at $0$. The question of converting the relation is posed as an open problem. A partial solution to this problem is established when at least one of representing measures is supported in a plane algebraic curve whose intersection with every straight line passing through $0$ is at most one point set. Further study concerns representing measures whose supports are Zariski dense in $\mathbb{C} $ as well as complex moment sequences which are constant on a family of parallel “Diophantine lines”. All this is supported by a bunch of illustrative examples.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/113031Fourier multipliers on anisotropic mixed-norm spaces of distributions2019-07-23T02:56:13+02:00Galatia Cleanthousmscand@math.au.dkAthanasios G. Georgiadismscand@math.au.dkMorten Nielsenmscand@math.au.dk<p>A new general Hörmander type condition involving anisotropies and mixed norms is introduced, and boundedness results for Fourier multipliers on anisotropic Besov and Triebel-Lizorkin spaces of distributions with mixed Lebesgue norms are obtained. As an application, the continuity of such operators is established on mixed Sobolev and Lebesgue spaces too. Some lifting properties and equivalent norms are obtained as well.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/114723The K-inductive structure of the noncommutative Fourier transform2019-07-23T02:56:09+02:00Samuel G. Waltersmscand@math.au.dk<p>The noncommutative Fourier transform $\sigma (U)=V^{-1}$, $\sigma (V)=U$ of the irrational rotation C*-algebra $A_\theta $ (generated by canonical unitaries $U$, $V$ satisfying $VU = e^{2\pi i\theta } UV$) is shown to have the following K-inductive structure (for a concrete class of irrational parameters, containing dense $G_\delta $'s). There are approximately central matrix projections $e_1$, $e_2$, $f$ that are σ-invariant and which form a partition of unity in $K_0$ of the fixed-point orbifold $A_\theta ^\sigma $, where $f$ has the form $f = g+\sigma (g) +\sigma ^2(g)+\sigma ^3(g)$, and where $g$ is an approximately central matrix projection as well.</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/114821Issue covers2019-06-17T20:55:17+02:00Mathematica Scandinavicamscand@math.au.dk<p>Issue covers</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##https://www.mscand.dk/article/view/114822Volume index2019-06-17T20:57:41+02:00Mathematica Scandinavicamscand@math.au.dk<p>Volume index</p>2019-06-17T00:00:00+02:00##submission.copyrightStatement##