Method for manufacturing an electrodisplacive actuated mirror array

1. A method for manufacturing an array of M×

• N electrodisplacive actuated mirrors for use in an optical projection system wherein M and N are integers, comprising the steps of;
  
  (a) preparing a ceramic wafer made of an electrodisplacive material, having a top and a bottom surfaces;
  
  (b) providing on the entirety of the bottom surface of said ceramic wafer an array of M×
  
  N regularly spaced, identically sized first electrodes;
  
  (c) covering the top surface of said ceramic wafer with an electrically conductive first metallization having a top surface;
  
  (d) bonding M regularly spaced, vertically directional masks on the top surface of the first metallization, wherein each of the first electrodes on the bottom surface of said ceramic wafer, when projected to the top surface of said ceramic wafer, overlaps portions of two adjacent masks;
  
  (e) generating on said ceramic wafer treated in accordance with said steps (b) to (d) an array of M×
  
  N actuating members, each actuating member having a flat top and a pair of side surfaces, by forming M vertically directional trenches of a predetermined width and depth, wherein each of the M trenches is further provided with N-1 horizontally directional grooves of a fixed dimension;
  
  (f) mounting said ceramic wafer treated in accordance with said steps (b) to (e) on an active matrix, having a substrate, an array of M×
  
  N transistors and an array of M×
  
  N connecting terminals, by connecting each of the first electrodes with each corresponding one of the connecting terminals;
  
  (g) removing the masks to thereby expose the flat top surface of the first metallization on each of the actuating members;
  
  (h) covering the top surface of the first metallization and the pair of side surfaces on each of the actuating members with a second metallization;
  
  (i) providing a first photoresist layer on top of the second metallization, except portions partially covering the pair of the side surfaces on each of the actuating members;
  
  (j) carrying out electroforming at the portions of the second metallization partially covering the pair of the side surfaces on each of the actuating memebers, thereby reducing the width of each of the M trenches;
  
  (k) removing the first photoresist layer on top of the second metallization on each of the actuating members;
  
  (l) providing a second photoresist layer on top of the second metallization on each of the actuating members;
  
  (m) forming a platform with a flat top surface by covering with an epoxy the entirety of the top surface of the ceramic wafer treated in accordance with said steps (b) to (l), including the M trenches;
  
  (n) providing a light reflecting layer on the flat top surface of the platform, thereby forming a mirror layer;
  
  (o) patterning the mirror layer, containing the light reflecting layer and the platform, into an array of M×
  
  N mirrors; and
  
  (p) removing the second photoresist layer on top of the second metallization on each of the M×
  
  N actuating members to thereby form the array of M×
  
  N electrodisplacive actuated mirrors.