$\mathbb{Z}_{2}$-equivariant Heegaard Floer cohomology of knots in $S^{3}$ as a strong Heegaard invariant
Abstract: The $\mathbb{Z}{2}$-equivariant Heegaard Floer cohomlogy $\widehat{HF}{\mathbb{Z}{2}}(\Sigma(K))$ of a knot $K$ in $S{3}$, constructed by Hendricks, Lipshitz, and Sarkar, is an isotopy invariant which is defined using bridge diagrams of $K$ drawn on a sphere. We prove that $\widehat{HF}{\mathbb{Z}{2}}(\Sigma(K))$ can be computed from knot Heegaard diagrams of $K$ and show that it is a strong Heegaard invariant. As a topolocial application, we construct a transverse knot invariant $\hat{\mathcal{T}}{\mathbb{Z}{2}}(K)$ as an element of $\widehat{HFK}{\mathbb{Z}{2}}(\Sigma(K),K)$, which is a refinement of $\widehat{HF}{\mathbb{Z}{2}}(\Sigma(K))$, and show that it is a refinement of both the LOSS invariant $\hat{\mathcal{T}}(K)$ and the $\mathbb{Z}{2}$-equivariant contact class $c_{\mathbb{Z}{2}}(\xi{K})$.
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