A dimensional light-emitting element array device is provided. The device comprises a light-emitting element array in which a plurality of three-terminal light-emitting thyristors are arranged in X-Y matrix of N rows.times.M columns; a plurality of row lines to each thereof an anode of the thyristor on a corresponding row of the matrix is connected; one clock line to which all the row lines are connected; a plurality of row address lines to each thereof a gate of the thyristor on a corresponding row and a 0th column of the matrix is connected; and a plurality of column address lines to each thereof a gate of the thyristor on a corresponding column of 1st-Mth columns of the matrix is connected.
This application is a Divisional Application, claiming the benefit of U.S. patent application Ser. No. 09/287,686, filed Apr. 7, 1999, now U.S. Pat. No. 6,266,036.
A self-scanning flat display having a light active matrix in the form of a set of periodic lines which include light-reflecting, light-transparent, or light-emitting elements. These elements are controlled by current or a charge generated by a scan raster device. The raster device is made in the form of a streamers produced from nanostructured active material, in which there is induced and propagates a soliton, i.e., a maintained running electronic wave. The soliton controls the light active matrix. The nanostructured material includes clusters with tunnel-transparent coatings. The clusters have the sizes, at which the resonant features of the electron are manifested. The sizes are determined by the circular radius of the electron wave. The cluster size is set within the range r.sub.0-4r.sub.0, i.e., 7.2517 nm.ltoreq.r.ltoreq.29.0068 nm. The width of the tunnel-transparent gap is not more than r.sub.0=7.2517 nm.
