Interlace polynomials: Enumeration, unimodality and connections to codes |
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Authors: | Lars Eirik Danielsen Matthew G Parker |
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Institution: | Department of Informatics, University of Bergen, PO Box 7803, N-5020 Bergen, Norway |
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Abstract: | The interlace polynomialq was introduced by Arratia, Bollobás, and Sorkin. It encodes many properties of the orbit of a graph under edge local complementation (ELC). The interlace polynomial Q, introduced by Aigner and van der Holst, similarly contains information about the orbit of a graph under local complementation (LC). We have previously classified LC and ELC orbits, and now give an enumeration of the corresponding interlace polynomials of all graphs of order up to 12. An enumeration of all circle graphs of order up to 12 is also given. We show that there exist graphs of all orders greater than 9 with interlace polynomials q whose coefficient sequences are non-unimodal, thereby disproving a conjecture by Arratia et al. We have verified that for graphs of order up to 12, all polynomials Q have unimodal coefficients. It has been shown that LC and ELC orbits of graphs correspond to equivalence classes of certain error-correcting codes and quantum states. We show that the properties of these codes and quantum states are related to properties of the associated interlace polynomials. |
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Keywords: | Interlace polynomials Local complementation Unimodality Circle graphs Quantum codes Quantum graph states |
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