Obstructing two-torsion in the rational knot concordance group

It is well known that there are many 2-torsion elements in the classical knot concordance group. On the other hand, it is not known if there is any torsion element in the rational knot concordance group $\mathcal{C}_\mathbb{Q}$. Cha defined the algebraic rational concordance group $\mathcal{AC}_\mathbb{Q}$, an analogue of the classical algebraic concordance group, and showed that $\mathcal{AC}_\mathbb{Q}\cong\mathbb{Z}^\infty\oplus\mathbb{Z}_2^\infty\oplus\mathbb{Z}_4^\infty$. The knots that represent 2-torsions in $\mathcal{AC}_\mathbb{Q}$ potentially have order $2$ in $\mathcal{C}_\mathbb{Q}$. In this paper, we provide an obstruction for knots of order $2$ in $\mathcal{AC}_\mathbb{Q}$ from being of finite order in $\mathcal{C}_\mathbb{Q}$. Moreover, we give a family consisting of such knots that generates an infinite rank subgroup of $\mathcal{C}_\mathbb{Q}$. We also note that Cha proved that in higher dimensions, the algebraic rational concordance order is the same as the rational knot concordance order. Our obstruction is based on the localized von Neumann $\rho$-invariant.
Comment: 22 pages, 5 figures