 UTE2 is a heavy fermion superconductor that exhibits a unique type of spin-triplet pairing state. This state is characterized by broken time reversal symmetry and the presence of major anor quasi-particles. Recent studies have suggested that this state may be chiral, but the exact nature of the chirality and the position of the superconducting gap note remain unclear. In this study, the authors used magnetic penetration depth measurements to investigate the chirality and no positions in UTE2. Their results suggest that the state is indeed chiral, and that it consists of two components with different note positions. Furthermore, they found that the state is described by a non-unitary B3U plus IAU model, which provides further evidence of the chiral nature of the state. This article was offered by Kota Ishihara, Masaki Roppongi, Masayuki Kobayashi, and others.