Amolak Ratan Kalra, Shiroman Prakash (Jan 20 2025).

Abstract: We show that the performance of a linear self-orthogonal $GF(4)$ code for magic state distillation of Bravyi and Kitaev's $|T\rangle$-state is characterized by its simple weight enumerator. We compute weight enumerators of all such codes with less than 20 qubits and find none whose threshold exceeds that of the 5-qubit code. Using constraints on weight enumerators from invariant theory and linear programming, we obtain bounds on the exponent characterizing noise suppression of a $|T\rangle$-state distillation protocol. We also obtain new non-negativity constraints on such weight enumerators by demanding consistency of the associated magic state distillation routine. These ``quantum constraints'' lead to new bounds on the distance of classical self-dual and maximal self-orthogonal linear $GF(4)$ codes, in particular, implying the nonexistence of a self-dual $[12m, 6m, 2m+4]_{GF(4)}$ linear code.

Arxiv: https://arxiv.org/abs/2501.10163