arXiv:1907.03369 Abstract | arXiv Analytics

arXiv:1907.03369 [math.CO]Abstract References Reviews Resources

The energy of a simplicial complex

Published 2019-07-07Version 1

A finite abstract simplicial complex G defines a matrix L, where L(x,y)=1 if two simplicies x,y in G intersect and where L(x,y)=0 if they don't. This matrix is always unimodular so that the inverse g of L has integer entries g(x,y). In analogy to Laplacians on Euclidean spaces, these Green function entries define a potential energy between two simplices x,y. We prove that the total energy summing all matrix elements g(x,y) is equal to the Euler characteristic X(G) of G and that the number of positive minus the number of negative eigenvalues of L is equal to X(G).

Comments: 34 pages

Categories: math.CO, cs.DM

Subjects: 05C10, 57M15, 68R10

Keywords: finite abstract simplicial complex, green function entries define, euclidean spaces, integer entries, potential energy

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arXiv:1907.03369 [math.CO]Abstract References Reviews Resources

The energy of a simplicial complex

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arXiv:1907.03369 [math.CO]AbstractReferencesReviewsResources

The energy of a simplicial complex

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arXiv:1907.03369 [math.CO]Abstract References Reviews Resources