| Autor: |
Beaton, Nicholas R., Ishihara, Kai, Atapour, Mahshid, Eng, Jeremy W., Vazquez, Mariel, Shimokawa, Koya, Soteros, Christine E. |
| Rok vydání: |
2022 |
| Předmět: |
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| Druh dokumentu: |
Working Paper |
| Popis: |
It has been conjectured that the exponential growth rate of the number of lattice polygons with knot-type $K$ is the same as that for unknot polygons, and that the entropic critical exponent increases by one for each prime knot in the knot decomposition of $K$. We provide the first proof of this conjecture by considering knots and non-split links in tube $\mathbb{T}^*$, the $\infty \times 2\times 1$ sublattice of the simple cubic lattice. We establish upper and lower bounds relating the asymptotics of the number of $n$-edge polygons with fixed link-type in $\mathbb{T}^*$ to that of the number of $n$-edge unknots. For the upper bounds, we prove that polygons can be unknotted by braid insertions. For the lower bounds, we prove a pattern theorem for unknots using information from exact transfer-matrices. We prove new results for 4-plats and highlight connections to modelling DNA in nanochannels. |
| Databáze: |
arXiv |
| Externí odkaz: |
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