The most significant achievement of the project, so far, is the discovery of the Josephson effect in supersolids and the subsequent measurement of the superfluid fraction, as described in the publication:
Measurement of the superfluid fraction of a supersolid by Josephson effect, G. Biagioni, N. Antolini, B. Donelli, L. Pezzè, A. Smerzi, M. Fattori, A. Fioretti, C. Gabbanini, M. Inguscio, L. Tanzi, G. Modugno, Nature, 629, 773–777 (2024).
We consider the discovery of the Josephson effect in supersolids and the subsequent measurement of the superfluid fraction a breakthrough, for various reasons. 1) The supersolid is the only spontaneous crystal in nature that exhibits the Josephson effect, a proof of its superfluid character. 2) The Josephson effect allowed to measure for the first time the superfluid fraction of a supersolid. 3) Since the Josephson-array structure of supersolids is spontaneous, it possesses a Goldstone mode that opens the way to a new class of Josephson junctions with novel entanglement properties.