We investigate the QCD Anderson transition by studying the low-lying eigenmodes of the overlap operator in the background of gauge configurations with 2+1+1 quark flavors of twisted-mass Wilson fermions. The mobility edge, below which eigenmodes are localized, is estimated by the inflection point of the relative volume. The analysis of its temperature dependence suggests a close relation of localization to chiral symmetry restoration. We update our previous work [1] by including recent results on lower temperatures and switching to improved estimates of the lattice spacing and pseudocritical temperature respectively pion mass. Contrary to the previous prediction, our the mobility edge estimate does not vanish at the temperature of the chiral phase transition. We discuss a possible scenario, supported by literature, for why this could be the case.

[1] R. Kehr, D. Smith and L. von Smekal, QCD Anderson transition with overlap valence quarks on a twisted-mass sea, Phys. Rev. D 109 (2024) 074512 [2304.13617].