 The Josephson Junction, JJ, is a crucial element in superconducting, SC, devices for both fundamental and applied physics, and its short-range coherent coupling forms on Dreyiv molecule states, AMSs, which can be used to engineer exotic SC phenomena such as topological SC states and on Dreyiv qubits. Tunnelling spectroscopy measurements on a device consisting of two electrically controllable planar JJs sharing a single SC electrode reveal highly modulated on Dreyiv spectra with phase-dependent AMS features, and the SC gap closing due to AMS formation is experimentally observed. These results help in understanding SC transport derived from AMSs and promote the use of AMS physics to engineer topological SC states and quantum information devices. This article was authored by Sadishij Matsu, Takaya Imato, Tomohiro Yokoyama, and others.