Abstract
A novel magnetoelectronic device for digital applications is presented, and characteristics of a Nonvolatile Random Access Memory (NRAM) cell are discussed. A prototype cell with micron dimensions and with binary output states of 0 and 80 mV has been demonstrated at room temperature. Device fabrication requires only two lithographic levels, one for a Hall cross and one for an electrically isolated, microstructured bistable ferromagnetic film. Locally strong magnetic fringe fields from the edge of the film generate a Hall voltage in the semiconductor. The sign of the fringe field, as well as the polarity of the Hall voltage, is switched by reversing the in-plane magnetization of the ferromagnet. The device is inverse scalable: output characteristics improve as dimensions shrink. A high-density, solid state NRAM with nsec read, write and access times could replace both DRAM and magnetic disk drives in most computer environments, eliminating redundancy in memory systems.
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