MAXIMAL RANK SUBGROUPS AND STRONG FUNCTORIALITY OF THE ADDITIVE EIGENCONE

An interval matrix is a matrix whose entries are intervals in $\R$. This concept, which has been broadly studied, is generalized to other fields. Precisely, a rational interval matrix is defined to be a matrix whose entries are intervals in $\Q$. It is proved that a (real) interval $p \times q$ matrix with the endpoints of all its entries in $\Q$ contains a rank-one matrix if and only if it contains a rational rank-one matrix, and contains a matrix with rank smaller than $\min\{p,q\}$ if and only if it contains a rational matrix with rank smaller than $\min\{p,q\}$; from these results and from the analogous criterions for (real) inerval matrices, a criterion to see when a rational interval matrix contains a rank-one matrix and a criterion to see when it is full-rank, that is, all the matrices it contains are full-rank, are deduced immediately. Moreover, given a field $K$ and a matrix $\al$ whose entries are subsets of $K$, a criterion to find the maximal rank of a matrix contained in $\al$ is described.

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On the Existence of Maximal Rank Curves with Prescribed Hartshorne-Rao Module

Liaison, Schottky Problem and Invariant Theory ◽

10.1007/978-3-0346-0201-3_8 ◽

2010 ◽

pp. 133-147

Author(s):

Silvio Greco ◽

Rosa Maria Miró-Roig

Keyword(s):

Maximal Rank

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A Geometric Characterization of Nonnegative Bands

Canadian Mathematical Bulletin ◽

10.4153/cmb-2004-025-0 ◽

2004 ◽

Vol 47 (2) ◽

pp. 257-263

Author(s):

Alka Marwaha

Keyword(s):

Invariant Subspace ◽

Geometric Structure ◽

Finite Rank ◽

Special Kind ◽

Maximal Rank ◽

Geometric Characterization ◽

Idempotent Operators ◽

Rank One ◽

Standard Subspace

AbstractA band is a semigroup of idempotent operators. A nonnegative band S in having at least one element of finite rank and with rank (S) > 1 for all S in S is known to have a special kind of common invariant subspace which is termed a standard subspace (defined below).Such bands are called decomposable. Decomposability has helped to understand the structure of nonnegative bands with constant finite rank. In this paper, a geometric characterization of maximal, rank-one, indecomposable nonnegative bands is obtained which facilitates the understanding of their geometric structure.

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Some Applications of Artamonov-Quillen-Suslin Theorems to Metabelian Inner Rank and Primitivity

Canadian Journal of Mathematics ◽

10.4153/cjm-1994-014-6 ◽

1994 ◽

Vol 46 (2) ◽

pp. 298-307 ◽

Cited By ~ 13

Author(s):

C. K. Gupta ◽

N. D. Gupta ◽

G. A. Noskov

Keyword(s):

Metabelian Group ◽

Sufficient Conditions ◽

Surface Group ◽

Maximal Rank ◽

Orientable Surface ◽

Surface Groups ◽

Modular Element ◽

Free Metabelian Group ◽

One Relator Groups ◽

Necessary And Sufficient

AbstractFor any variety of groups, the relative inner rank of a given groupG is defined to be the maximal rank of the -free homomorphic images of G. In this paper we explore metabelian inner ranks of certain one-relator groups. Using the well-known Quillen-Suslin Theorem, in conjunction with an elegant result of Artamonov, we prove that if r is any "Δ-modular" element of the free metabelian group Mn of rank n > 2 then the metabelian inner rank of the quotient group Mn/(r) is at most [n/2]. As a corollary we deduce that the metabelian inner rank of the (orientable) surface group of genus k is precisely k. This extends the corresponding result of Zieschang about the absolute inner ranks of these surface groups. In continuation of some further applications of the Quillen-Suslin Theorem we give necessary and sufficient conditions for a system g = (g1,..., gk) of k elements of a free metabelian group Mn, k ≤ n, to be a part of a basis of Mn. This extends results of Bachmuth and Timoshenko who considered the cases k = n and k < n — 3 respectively.

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