Single-crystal silicon trench etching for fabrication of highly integrated circuits

Manfred Engelhardt

doi:10.1117/12.48915

1 March 1991 Single-crystal silicon trench etching for fabrication of highly integrated circuits

Manfred Engelhardt

Proceedings Volume 1392, Advanced Techniques for Integrated Circuit Processing; (1991) https://doi.org/10.1117/12.48915
Event: Processing Integration, 1990, Santa Clara, CA, United States

Abstract

The development of single crystal silicon trench etching for fabrication of memory cells in 4 16 and 64Mbit DRAMs is reviewed in this paper. A variety of both etch tools and process gases used for the process development is discussed since both equipment and etch chemistry had to be improved and changed respectively to meet the increasing requirements for high fidelity pattern transfer with increasing degree of integration. In additon to DRAM cell structures etch results for deep trench isolation in advanced bipolar ICs and ASICs are presented for these applications grooves were etched into silicon through a highly doped buried layer and at the borderline of adjacent p- and n-well areas respectively. Shallow trench etching of large and small exposed areas with identical etch rates is presented as an approach to replace standard LOCOS isolation by an advanced isolation technique. The etch profiles were investigated with SEM TEM and AES to get information on contathination and damage levels and on the mechanism leading to anisotropy in the dry etch process. Thermal wave measurements were performed on processed single crystal silicon substrates for a fast evaluation of the process with respect to plasma-induced substrate degradation. This useful technique allows an optimization ofthe etch process regarding high electrical performance of the fully processed memory chip. The benefits of the use of magnetic fields for the development of innovative single crystal silicon dry

Citation Download Citation

Manfred Engelhardt "Single-crystal silicon trench etching for fabrication of highly integrated circuits", Proc. SPIE 1392, Advanced Techniques for Integrated Circuit Processing, (1 March 1991); https://doi.org/10.1117/12.48915

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