Minimal area of the spun trefoil knot on the canonical cubulation of $\mathbb{R}^4$
Abstract: We say that a \emph{cubical 2-knot} $K{2}$ is an embedding of the 2-sphere in the 2-skeleton of the canonical cubulation of $\mathbb{R}4$; in particular, $K{2}$ is the union of $m(K{2})$ unit squares, hence $m(K{2})$ is its area. We define the minimal area of $K{2}$ as the minimum over all the areas of cubical 2-knots isotopic to the given knot type. The minimal area of a cubical 2-knot is an invariant, and the following natural question arose: Given a knot type, what area is needed for a cubical 2-knot in the canonical cubulation of $\mathbb{R}4$ to realise that type with minimal area? In this paper, we answer this question for the spun trefoil knot in the weakly minimal case.
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