低温(<400/spl℃)退火处理下SiO/sub /Si界面附近铜的分布行为及其对mos电容器电特性的影响

2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104) Pub Date : 2000-06-13 DOI:10.1109/VLSIT.2000.852754

K. Hozawa, T. Itoga, S. Isomae, J. Yugami, M. Ohkura

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引用次数: 6

摘要

利用x射线荧光全反射(TXRF)模拟多层布线过程中热收支的影响，研究了低温退火后SiO/sub /Si界面附近Cu的重分布行为。在高温驱动扩散过程中，有意吸附在晶圆背面的Cu原子被扩散，并在沾污点被一次沾污。然而，在驱动扩散后的低温退火后，即使在CZ晶圆中采用本征捕集工艺(IG)， Si表面的Cu浓度也有所增加。在400℃的退火过程中，Cu原子在驱动扩散后聚集在SiO/sub //Si界面附近，容易通过SiO/sub /薄膜到达SiO/sub /表面。Cu的这种输运导致SiO/sub /薄膜的降解。为了实现高可靠性的CMOS器件，必须仔细控制低温退火过程中的重分布现象。

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Copper distribution behavior near a SiO/sub 2//Si interface by low-temperature (<400/spl deg/C) annealing and its influence on electrical characteristics of MOS-capacitors

The Cu redistribution behavior near a SiO/sub 2//Si interface after low temperature annealing is examined by using total reflection of X-ray fluorescence (TXRF) to simulate the effect of thermal budget in multi-level wiring processes. Cu atoms intentionally adsorbed on backside of the wafers were diffused and were once gettered at the gettering sites during high-temperature drive-in diffusion. However, after low-temperature annealing following the drive-in diffusion, Cu concentration of the Si surface was found to increase even in CZ wafers with intrinsic gettering process (IG). Cu atoms gettered in the vicinity of the SiO/sub 2//Si interface after drive-in diffusion are found to readily transport through the SiO/sub 2/ film and reach the SiO/sub 2/ surface during 400/spl deg/C annealing. This transport of Cu is found to cause degradation of thin SiO/sub 2/ film. The redistribution phenomenon during low-temperature annealing should be carefully controlled in order to realize highly reliable CMOS devices.

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2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104)

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