Space Charge Limited Current with Self-heating in Pr0.7Ca0.3MnO3 based RRAM

Abstract

Space Charge Limited Current (SCLC) based conduction has been identified for PCMO-based RRAM devices based on the observation that I Vα where α ≈ 2. A critical feature of the IV characteristics is a sharp rise in current (α 2) which has been widely attributed to trap-filled limit (TFL) followed by an apparent trap-free SCLC conduction. In this paper, we show by TCAD analysis that trap-filled limit (TFL) is insufficient to explain the sharp current rise (α 2). As an alternative, we propose a shallow trap SCLC model with selfheating effect based thermal runaway to explain the sharp current rise followed by a series resistance dominated regime. Experimental results over a range of 25C-125C demonstrate all 4 regimes (i) Ohmic (α = 1), (ii) shallow trap SCLC (α ≈ 2), (iii) current shoot up (α 2) and (iv) series resistance (α = 1). Further, TCAD simulations with thermal modeling are able to match the experimental IV characteristics in all the regimes. Thus, a current conduction mechanism in PCMO-based RRAM supported by detailed TCAD model is presented. Such a model is essential for further quantitative understanding and design for PCMO-based RRAM.