偏压电子回旋共振等离子体沉积制备a-C:H和SiO/sub / 2/薄膜的平面化

Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference Pub Date : 1989-06-12 DOI:10.1109/VMIC.1989.78007

M. Horn, S. Pang, M. Rothschild

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引用次数: 0

摘要

室温偏置电子回旋共振等离子体沉积碳基和硅基平化材料。用1-丁烯和1,3-丁二烯制备了非晶氢化碳(a-C:H)的平面化层。利用1.2 μ m厚的a-C:H薄膜，将1 μ m深、2 μ m宽的氧化物和铝特征平面化到小于50 nm的高度。二氧化硅层是用N/sub - 2/O、Ar和5% SiH/sub - 4/稀释在N/sub - 2/中的混合物沉积的。使用名义上1.5 μ m厚的薄膜，800 nm深的形貌可以减少到小于50 nm，线宽为3 μ m。使用椭偏仪和俄歇电子能谱对平面化SiO/sub 2/层进行了表征，发现其折射率和化学计量学与热生长栅氧化物相当。平面化所需的时间和最终薄膜厚度取决于待平面化特征的纵横比和沉积条件。

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Planarizing a-C:H and SiO/sub 2/ films prepared by bias electron cyclotron resonance plasma deposition

Room-temperature bias electron cyclotron resonance plasma deposition of both carbon- and silicon-based planarization materials has been demonstrated. Planarization layers of amorphous hydrogenated carbon (a-C:H) have been deposited from 1-butene and 1,3-butadiene. Oxide and aluminum features 1- mu m deep by 2- mu m wide have been planarized to less than 50 nm in height using 1.2- mu m-thick a-C:H films. Silicon dioxide layers have been deposited using a mixture of N/sub 2/O, Ar, and 5% SiH/sub 4/ diluted in N/sub 2/. Using films nominally 1.5 mu m thick, 800-nm-deep topography can be reduced to less than 50 nm for lines as wide as 3 mu m. The planarizing SiO/sub 2/ layers have been characterized using ellipsometry and Auger electron spectroscopy and found to have a refractive index and stoichiometry comparable to those of thermally grown gate oxide. The time necessary for planarization and the final film thickness are dependent upon the aspect ratio of the features to be planarized and the deposition conditions.<>

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Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference

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