Abstract
A new 3-D stacked NAND flash memory was proposed and key characteristics of the memory were investigated using extensive device simulation. To simplify gate stack etch process, Si/SiGe selective etch process was adopted. By applying silicon trench etch process, threshold voltage ( V TH) variation in a bit-line can be reduced and the number of vertical control-gate (CG) stacks can be increased as a result. In the trench between CG stacks, gate stack, poly-Si bodies, back-side oxide (BOX) and shield layer are formed. The 3-D stacked NAND flash memory structure without shield layer showed significant cross-talk between adjacent bodies. By adopting shield layers in the trenches, the cross-talks were completely removed. We designed BOX thickness which guarantees reasonable DIBL (Drain-Induced-Barrier-Lowering) and SS (Sub-threshold Swing). The V TH shift of ∼1.8 V was observed with the Q nit of 6 × 10 12 cm −2.
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