论文信息 - Characterization of memristive Poly-Si Nanowires via empirical physical modelling

Characterization of memristive Poly-Si Nanowires via empirical physical modelling

Memristors are passive circuit elements that behave as resistors with memory. The recently illustrated experimental realization of memristive behaviour of Polysilicon Nanowires has triggered interest in this concept, which is promising to a wide variety of application areas that include neuromorphic circuits. In order to progress with practical implementations that use this technology we need to expand our understanding of the conduction mechanisms in these structures and of the underlying relationship between device behavior and process manufacturing parameters. In this paper we explore these mechanisms through detailed simulation, which includes model calibration and correlation with experimental results. Through fitting of the test results we identify a unique set of density of states that characterize the particular technology implemented.

[1] R. Stanley Williams,et al. Molecule-Independent Electrical Switching in Pt/Organic Monolayer/Ti Devices , 2004 .

[2] Giovanni De Micheli,et al. Fabrication of memristors with poly-crystalline silicon nanowires , 2009, 2009 9th IEEE Conference on Nanotechnology (IEEE-NANO).

[3] Bernabé Linares-Barranco,et al. Memristance can explain Spike-Time-Dependent-Plasticity in Neural Synapses , 2009 .

[4] Tatiana Berzina,et al. A functional polymeric material based on hybrid electrochemically controlled junctions , 2008 .

[5] J. Suehle,et al. A Flexible Solution-Processed Memristor , 2009, IEEE Electron Device Letters.

[6] Emmanuel M. Drakakis,et al. Current-mode analogue circuit representation of Hodgkin and Huxley neuron equations , 1998 .

[7] W. Lu,et al. High-density Crossbar Arrays Based on a Si Memristive System , 2008 .

[8] Wei Wu,et al. A hybrid nanomemristor/transistor logic circuit capable of self-programming , 2009, Proceedings of the National Academy of Sciences.

[9] L. Chua. Memristor-The missing circuit element , 1971 .

[10] A. Hodgkin,et al. A quantitative description of membrane current and its application to conduction and excitation in nerve , 1952, The Journal of physiology.