Arithmetical Rank of a Squarefree Monomial Ideal whose Alexander Dual is of Deviation Two

Let $I\subset K[x_1,\ldots,x_n]$ be a zero-dimensional monomial ideal, and $\Delta(I)$ be the simplicial complex whose Stanley--Reisner ideal is the polarization of $I$. It follows from a result of Soleyman Jahan that $\Delta(I)$ is shellable. We give a new short proof of this fact by providing an explicit shelling. Moreover, we show that $\Delta(I)$ is even vertex decomposable. The ideal $L(I)$, which is defined to be the Stanley--Reisner ideal of the Alexander dual of $\Delta(I)$, has a linear resolution which is cellular and supported on a regular CW-complex. All powers of $L(I)$ have a linear resolution. We compute $\mathrm{depth}\ L(I)^k$ and show that $\mathrm{depth}\ L(I)^k=n$ for all $k\geq n$.

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Linear syzygies of Stanley-Reisner ideals

MATHEMATICA SCANDINAVICA ◽

10.7146/math.scand.a-14333 ◽

2001 ◽

Vol 89 (1) ◽

pp. 117 ◽

Cited By ~ 10

Author(s):

V Reiner ◽

V Welker

Keyword(s):

Simplicial Complex ◽

Lower Bounds ◽

Monomial Ideal ◽

Independent Sets ◽

Free Resolution ◽

Monomial Ideals ◽

Minimal Free Resolution ◽

Linear Syzygies ◽

Alexander Dual ◽

Syzygy Modules

We give an elementary description of the maps in the linear strand of the minimal free resolution of a square-free monomial ideal, that is, the Stanley-Reisner ideal associated to a simplicial complex $\Delta$. The description is in terms of the homology of the canonical Alexander dual complex $\Delta^*$. As applications we are able to prove for monomial ideals and $j=1$ a conjecture of J. Herzog giving lower bounds on the number of $i$-syzygies in the linear strand of $j^{th}$-syzygy modules show that the maps in the linear strand can be written using only $\pm 1$ coefficients if $\Delta^*$ is a pseudomanifold exhibit an example where multigraded maps in the linear strand cannot be written using only $\pm 1$ coefficients compute the entire resolution explicitly when $\Delta^*$ is the complex of independent sets of a matroid

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On Stanley Depths of Certain Monomial Factor Algebras

Canadian Mathematical Bulletin ◽

10.4153/cmb-2015-001-x ◽

2015 ◽

Vol 58 (2) ◽

pp. 393-401

Author(s):

Zhongming Tang

Keyword(s):

Polynomial Ring ◽

Monomial Ideal ◽

Primary Decomposition ◽

Factor Algebra ◽

Stanley Depth ◽

Stanley Conjecture ◽

Stanley Decomposition

AbstractLet S = K[x1 , . . . , xn] be the polynomial ring in n-variables over a ûeld K and I a monomial ideal of S. According to one standard primary decomposition of I, we get a Stanley decomposition of the monomial factor algebra S/I. Using this Stanley decomposition, one can estimate the Stanley depth of S/I. It is proved that sdepthS(S/I) ≤ sizeS(I). When I is squarefree and bigsizeS(I) ≤ 2, the Stanley conjecture holds for S/I, i.e., sdepthS(S/I) ≥ depthS(S/I).

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Stanley’s conjecture for critical ideals

Studia Scientiarum Mathematicarum Hungarica ◽

10.1556/sscmath.2010.1160 ◽

2011 ◽

Vol 48 (2) ◽

pp. 220-226

Author(s):

Azeem Haider ◽

Sardar Khan

Keyword(s):

Polynomial Ring ◽

Hilbert Function ◽

Monomial Ideal ◽

Monomial Ideals ◽

Stanley Depth

Let S = K[x1,…,xn] be a polynomial ring in n variables over a field K. Stanley’s conjecture holds for the modules I and S/I, when I ⊂ S is a critical monomial ideal. We calculate the Stanley depth of S/I when I is a canonical critical monomial ideal. For non-critical monomial ideals we show the existence of a Stanley ideal with the same depth and Hilbert function.

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The arithmetical rank of the edge ideals of cactus graphs

Communications in Algebra ◽

10.1080/00927872.2017.1310873 ◽

2017 ◽

Vol 45 (12) ◽

pp. 5407-5419

Author(s):

Margherita Barile ◽

Antonio Macchia

Keyword(s):

Edge Ideals ◽

Arithmetical Rank ◽

Cactus Graphs

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Edge ideals of clique clutters of comparability graphs and the normality of monomial ideals

MATHEMATICA SCANDINAVICA ◽

10.7146/math.scand.a-15126 ◽

2010 ◽

Vol 106 (1) ◽

pp. 88 ◽

Cited By ~ 4

Author(s):

Luis A. Dupont ◽

Rafael H. Villarreal

Keyword(s):

Monomial Ideal ◽

Lattice Points ◽

Edge Ideal ◽

Comparability Graph ◽

Decomposition Property ◽

Edge Ideals ◽

Finite Poset ◽

Integer Decomposition Property ◽

Torsion Free ◽

Min Cut

The normality of a monomial ideal is expressed in terms of lattice points of blocking polyhedra and the integer decomposition property. For edge ideals of clutters this property characterizes normality. Let $G$ be the comparability graph of a finite poset. If $\mathrm{cl}(G)$ is the clutter of maximal cliques of $G$, we prove that $\mathrm{cl}(G)$ satisfies the max-flow min-cut property and that its edge ideal is normally torsion free. Then we prove that edge ideals of complete admissible uniform clutters are normally torsion free.

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Combinatorial Reductions for the Stanley Depth of $I$ and $S/I$

The Electronic Journal of Combinatorics ◽

10.37236/6783 ◽

2017 ◽

Vol 24 (3) ◽

Cited By ~ 1

Author(s):

Mitchel T. Keller ◽

Stephen J. Young

Keyword(s):

Polynomial Ring ◽

Monomial Ideal ◽

Strict Inequality ◽

Polynomial Rings ◽

Computer Search ◽

Stanley Depth ◽

The Relationship

We develop combinatorial tools to study the relationship between the Stanley depth of a monomial ideal $I$ and the Stanley depth of its compliment, $S/I$. Using these results we are able to prove that if $S$ is a polynomial ring with at most 5 indeterminates and $I$ is a square-free monomial ideal, then the Stanley depth of $S/I$ is strictly larger than the Stanley depth of $I$. Using a computer search, we are able to extend this strict inequality up to polynomial rings with at most 7 indeterminates. This partially answers questions asked by Propescu and Qureshi as well as Herzog.

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Stanley depth and symbolic powers of monomial ideals

MATHEMATICA SCANDINAVICA ◽

10.7146/math.scand.a-25501 ◽

2017 ◽

Vol 120 (1) ◽

pp. 5 ◽

Cited By ~ 4

Author(s):

S. A. Seyed Fakhari

Keyword(s):

Monomial Ideal ◽

Monomial Ideals ◽

Limit Behavior ◽

Stanley Depth ◽

Symbolic Powers

The aim of this paper is to study the Stanley depth of symbolic powers of a squarefree monomial ideal. We prove that for every squarefree monomial ideal $I$ and every pair of integers $k, s\geq 1$, the inequalities $\mathrm{sdepth} (S/I^{(ks)}) \leq \mathrm{sdepth} (S/I^{(s)})$ and $\mathrm{sdepth}(I^{(ks)}) \leq \mathrm{sdepth} (I^{(s)})$ hold. If moreover $I$ is unmixed of height $d$, then we show that for every integer $k\geq1$, $\mathrm{sdepth}(I^{(k+d)})\leq \mathrm{sdepth}(I^{{(k)}})$ and $\mathrm{sdepth}(S/I^{(k+d)})\leq \mathrm{sdepth}(S/I^{{(k)}})$. Finally, we consider the limit behavior of the Stanley depth of symbolic powers of a squarefree monomial ideal. We also introduce a method for comparing the Stanley depth of factors of monomial ideals.

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On the alexander dual of path ideals of cycle posets

Mathematica Slovaca ◽

10.1515/ms-2017-0103 ◽

2018 ◽

Vol 68 (2) ◽

pp. 319-330

Author(s):

Anda Olteanu ◽

Oana Olteanu

Keyword(s):

Projective Dimension ◽

Alexander Dual

Abstract We consider the Alexander dual of path ideals of cycle posets, and we compute the Castelnuovo-Mumford regularity. As a consequence, we get the projective dimension of path ideals of cycle posets. Our results are expressed in terms of the combinatorics of the underlying poset.

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Stanley depth and size of a monomial ideal

Proceedings of the American Mathematical Society ◽

10.1090/s0002-9939-2011-11160-2 ◽

2012 ◽

Vol 140 (2) ◽

pp. 493-504 ◽

Cited By ~ 7

Author(s):

Jürgen Herzog ◽

Dorin Popescu ◽

Marius Vladoiu

Keyword(s):

Monomial Ideal ◽

Stanley Depth

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