Face numbers of pseudomanifolds with isolated singularities

Novik, Isabella; Swartz, Ed

doi:10.7146/math.scand.a-15204

Cited by 25 publications

(24 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It is worth adding that the "in particular" part (i.e., the statement on f -vectors) of Theorem 7 was extended to all odd-dimensional Eulerian pseudomanifolds with isolated singularities in [29]; moreover, Novik and Swartz [74], proved the UBT for all Eulerian pseudomanifolds with so-called homologically isolated singularities as long as n ≥ 3d − 4. However, Klee's conjecture [42] that the UBC holds for all Eulerian complexes remains wide open.…”

Section: The Upper Bound Theorem For Manifoldsmentioning

confidence: 99%

Face enumeration on simplicial complexes

Klee

Novik

2016

The IMA Volumes in Mathematics and Its Applications

Self Cite

View full text Add to dashboard Cite

Section: The Upper Bound Theorem For Manifoldsmentioning

confidence: 99%

Face enumeration on simplicial complexes

Klee

Novik

2016

The IMA Volumes in Mathematics and Its Applications

Self Cite

View full text Add to dashboard Cite

“…By Theorem 3.1 in [12] we have that f 3 (∆) = f 1 (∆) − f 0 (∆) + χ(∆), and 2χ(∆) = v∈∆ β 1 (lk(v)). Also since any vertex link in ∆ is a simplicial 2-manifold, so f 2 (lk(v)) = 2f 0 (lk(v))− 4 + 2β 1 (lk(v)).…”

Section: Proofmentioning

confidence: 96%

The upper bound theorem for flag homology 5-manifolds

Zheng

2020

Journal of Combinatorial Theory, Series A

View full text Add to dashboard Cite

We prove that among all flag homology 5-manifolds with n vertices, the join of 3 circles of as equal length as possible is the unique maximizer of all the face numbers. The same upper bounds on the face numbers hold for 5-dimensional flag Eulerian normal pseudomanifolds.Conjecture 1.1 (Nevo-Petersen, [11]). The γ-vector of any flag homology sphere satisfies Frankl-Füredi-Kalai inequalities (see [4]). If this conjecture holds, then the face numbers of flag (2m − 1)spheres with n vectices are simultaneously maximized by the face numbers of J m (n).Conjecture 1.2 [8]). In the class of flag homology (2m − 1)-spheres with n vectices, J m (n) is the unique maximizer of all the face numbers.

show abstract

“…Our Theorem 4.4 detailing the A-module structure of H i m (A P ) has the potential to extend many results about simplicial complexes relying upon Gräbe's theorem to the simplicial poset case. For example, many of the theorems for face rings of simplicial complexes with isolated singularities found in [MNS11], [NS12], and [Saw] appear likely to be true in this greater generality.…”

Section: Comments and Further Applicationsmentioning

confidence: 99%

Ext and local cohomology modules of face rings of simplicial posets

Sawaske

2018

Journal of Algebra

View full text Add to dashboard Cite

There are a large number of theorems detailing the homological properties of the Stanley-Reisner ring of a simplicial complex. Here we attempt to generalize some of these results to the case of a simplicial poset. By investigating the combinatorics of certain modules associated with the face ring of a simplicial poset from a topological viewpoint, we extend some results of Miyazaki and Gräbe to a wider setting. supp(w)={j:α j =0}

show abstract

Face numbers of pseudomanifolds with isolated singularities

Cited by 25 publications

References 36 publications

Face enumeration on simplicial complexes

Face enumeration on simplicial complexes

The upper bound theorem for flag homology 5-manifolds

Ext and local cohomology modules of face rings of simplicial posets

Contact Info

Product

Resources

About