防止等离子体诱导薄膜应力引起的线摆动的TiN硬掩膜的评价

A. Turnquist, N. Kofuji, J. Sebastian, Z. Liu, H. Kou, H. Fukuda, Y. Tomczak, Y. Sun, D. Piumi, D. D. Roest
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引用次数: 1

摘要

研究了TiN硬掩膜的本征应力和等离子体诱导应力对线摆动的影响,并用28nm间距、线和空间(L/S) EUV抗蚀剂蚀刻p-SiOCH。实验堆叠包括晶体PVD TiN,其本征应力为+0.1 GPa和几种PEALD TiN薄膜,其结晶度和本征应力范围从-3.6 GPa(压缩)到+0.2 GPa(拉伸)不等。结果证实,当掩膜在工艺流程中不暴露于等离子体中时,降低TiN内禀应力可以防止摆动1。然而,当TiN在典型的后端线(BEOL)工艺2-3中暴露于等离子体中时,所有薄膜中的压应力都增加了,甚至在具有低本征应力的PVD TiN样品中也会导致摆动。由于等离子体暴露导致的压缩应力的整体增加与内在应力值无关,因此,这项工作表明,在选择TiN薄膜时,应该更加关注等离子体诱导的应力,以避免线摆动。进一步的研究发现,增加TiN掩膜的表面粗糙度可以降低摆动的风险,并且表面粗糙度受p-SiOCH蚀刻选择性的影响,这表明在评估BEOL, p-SiOCH蚀刻中的线摆动时也应考虑掩膜表面粗糙度。
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Evaluation of TiN hardmask films to prevent line wiggling due to plasma-induced film stress
The impact of both intrinsic and plasma-induced stress of a TiN hardmask on line wiggling was investigated via etching of p-SiOCH with 28 nm pitch, line and space (L/S) EUV resist patterning. Experimental stacks included crystalline PVD TiN with an intrinsic stress of +0.1 GPa and several PEALD TiN films with varying crystallinity and intrinsic stresses ranging from -3.6 GPa (compressive) to +0.2 GPa (tensile). Results confirmed that reduction of intrinsic TiN stress can prevent wiggling1 when the mask is not exposed to plasma during process flow. However, when TiN is exposed to plasma as in a typical back end of line (BEOL) process2-3, compressive stress increased in all films and resulted in wiggling even in the patterned PVD TiN sample with low intrinsic stress. This global increase in compressive stress due to plasma exposure did not correlate with intrinsic stress values, therefore, this work suggests a greater focus should be placed on plasma-induced stress to avoid line wiggling when selecting a TiN film. Further investigation found that increased surface roughness of the TiN mask can decrease the risk of wiggling, and that surface roughness is influenced by p-SiOCH etch selectivity, indicating mask surface roughness should also be considered when evaluating line wiggling in BEOL, p-SiOCH etching.
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