Patent ID: 6391721
Filing Date: 2002-05-21
Classification: H01L

Abstract:
A method of fabricating a non-volatile semiconductor memory device including a plurality of MOS transistor memory cells operatively connected with bit lines, word lines, and source lines formed on a semiconductor substrate having a first conductivity type, the method comprising the steps of:forming a first semiconductor layer having a second conductivity type opposite to the first conductivity type on the semiconductor substrate; forming a second semiconductor layer having a first conductivity type formed on the first semiconductor layer; forming a plurality of parallel trenches spacing a first region and extending in a first direction on a surface of the semiconductor substrate such that the trenches depthwise penetrate the second and first semiconductor layers and are extended to the semiconductor substrate; filling back the trenches with an insulating material to form an insulating wall at each of the trenches such that the first and second semiconductor layers are divided into a plurality of the first regions by the insulating walls, and each of the first regions is extended along the first direction between each pair of the insulating walls adjacent to each other; forming a third semiconductor layer having a second conductivity type on each of the first regions of the second semiconductor layer such that the third semiconductor layer are divided into a series of second regions arranged in the first direction spacing each other; forming a first trench on each of the second regions of the third semiconductor layer; forming a second trench penetrating a bottom of the first trench and extending depthwise to the first semiconductor layer such that a peripheral length of an aperture of the first trench at an upper portion is greater than a peripheral length of an aperture of the second trench at a lower portion; forming a first insulating film on entire exposed surfaces of the first, second and third semiconductor layers such that a shape of the first and second trenches remains in each of the second regions; depositing a first conductive layer on an entire surface of the first insulating film including an inside wall of the trenches such that a shape of the first and second trenches remains in each of the second regions, and pattering the first conductive layer into a plurality of equally spacing parallel stripes crossing over the insulating walls, and extending over the trenches arranged in series in a second direction essentially perpendicular to the first direction such that each of the stripes is wider than the first trench and narrower than the second region; forming a second insulating film on a surface of each of the stripes such that a shape of the first and second trenches still remain; and depositing a second conductive layer on exposed entire surfaces of the first and second insulating films such that the first and second trenches, and spaces between the parallel strips of the second conductive layer are all filled back, and patterning the second conductive layer, the second insulating film, the first conductive layer and the first insulating film successively into a plurality of parallel stripes spacing each other and extending over the trenches arranged in series in the first direction such that each of the stripes of the second conductive layer is wider than the first trench and narrower than the second region.