Linking numbers, quandles and groups (2102.11610v3)

Abstract: We introduce a quandle invariant of classical and virtual links, denoted $Q_{tc} (L)$. This quandle has the property that $Q_{tc} (L) \cong Q_{tc} (L')$ if and only if the components of $L$ and $L'$ can be indexed in such a way that $L=K_1 \cup \dots \cup K_{\mu}$, $L'=K'1 \cup \dots \cup K'{\mu}$ and for each index $i$, there is a multiplier $\epsilon_i \in {-1,1}$ that connects virtual linking numbers over $K_i$ in $L$ to virtual linking numbers over $K'i$ in $L'$: $\ell{j/i}(K_i,K_j)= \epsilon_i \ell_{j/i}(K'_i,K'_j)$ for all $j \neq i$. We also extend to virtual links a classical theorem of Chen, which relates linking numbers to the nilpotent quotient $G(L)/G(L)_3$.