2016年第63回応用物理学会春季学術講演会

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一般セッション(口頭講演)

15 結晶工学 » 15.1 バルク結晶成長

[19a-H112-1~8] 15.1 バルク結晶成長

2016年3月19日(土) 09:45 〜 11:45 H112 (本館)

横田 有為(東北大)

10:45 〜 11:00

[19a-H112-5] Effect of packing structure of Si chunks on melting process and carbon contamination in Czochralski silicon crystal growth

〇(P)Liu Xin1、Gao Bing1、Nakano Satoshi1、Harada Hirofumi1、Miyamura Yoshiji1、Kakimoto Koichi1 (1.RIAM, Kyushu Univ.)

キーワード:Czochralski method,bulk crystal,melt growth

Reduction of carbon (C) contamination in Czochralski silicon crystal growth (CZ-Si) is required for the production of Si wafer with long carrier lifetimes. Contamination of C in Si crystal mainly originates from carbon monoxide (CO) generation on the graphite components. Therefore, it is essential to control the CO generation and C incorporation from the preheating to the tailing processes. Loading a crucible by poly-Si charge includes many technique details for the optimization of melting and growth process. Due to the porosity of packing Si chunks, the heat transport modeling should take into account the effective thermal conductivity (ETC) of Si feedstock. The ETC model proposed by IAEA was applied in the transient global simulation of the melting process. The ETC could be affected by packing structures, as a function of chunk size and porosity. A top layer with the thickness of 50mm was set as the interest area. Comparison of melting processes with different packing structures indicated that smaller Si chunks packed in the upper part can reduce the heat loss from the top surface. Moreover, the duration decrease of melting process is favorable for the reduction of C contamination in Si feedstock. Optimization of the melting process by packing structure is possible and essential for C reduction.