📝 SummarXiv

Abstract

We show that altermagnets (AMs) with Rashba spin--orbit coupling can host a transverse Josephson diode effect (TJDE) without any external magnetic field. AMs combine zero net magnetization with spin-polarized Fermi surfaces, enabling the simultaneous breaking of inversion and time-reversal symmetries. We propose a four-terminal Josephson junction where a longitudinal phase bias between opposite superconducting terminals generates transverse supercurrents in the unbiased terminals. These transverse currents exhibit both a diode-like nonreciprocity and a finite anomalous phase offset, revealing a transverse anomalous Josephson effect (AJE). For certain parameter regimes, the transverse current becomes unidirectional, and the TJDE efficiency can exceed 1000\%, demonstrating exceptionally strong diode behavior. Remarkably, the magnitude and direction of the TJDE and transverse AJE are tunable by rotating the N\'eel vector. Our results establish altermagnets as a versatile platform for engineering field-free nonreciprocal superconducting transport in multiterminal devices.