Optoelectronic Mesoscopic Neural Devices (Special Section on Nonlinear Theory and Its Applications)

概要

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A novel optoelectronic mesoscopic neural device is proposed. This device operates in a neural manner, involving the electron interference and the laser threshold characteristics. The optical output is a 2-dimensional image, and can also be colored, if the light emitting elements are fabricated to form the picture elements in 3-colors, i.e. R, G, and B. The electron waveguiding in the proposed device is analyzed, on the basis of the analogy between the Schrodinger's equation and the Maxwell's wave equation. The nonlinear neural connection is achieved, as a result of the superposition and the interferences among electron waves transported through different waveguides. The sizes of the critical elements of this device are estimated to be within the reach of the present day technology. This device exceeds the conventional VLSI neurochips by many orders of magnitude, in the number of neurons per unit area, as well as in the speed of operation.
社団法人電子情報通信学会の論文
1994-11-25