Biharmonic-drive tunable Josephson diode (2504.08691v1)

Abstract: The superconducting diode effect has garnered significant interest due to its prospective applications in cryogenic electronics and computing, characterized by zero resistance and no energy dissipation. This phenomenon has been demonstrated across various superconducting platforms, which typically necessitate unconventional materials with broken spatial symmetries or external magnetic fields, posing scalability and integration challenges. This work introduces an innovative method to realize the superconducting diode effect by disrupting spatio-temporal symmetries in a conventional Josephson junction utilizing a biharmonic AC drive signal. We achieve wireless modulation of the diode's polarity and efficiency with an antenna. Our findings indicate a diode efficiency reaching the ideal $100\%$ over a broad frequency range, with a temperature resilience up to 800 mK, and efficient AC signal rectification. This versatile and platform-independent superconducting diode signifies a promising component for advancing future superconducting digital electronics, including efficient logic gates, ultra-fast switches, and dynamic half-wave supercurrent rectifiers.