2019年第80回応用物理学会秋季学術講演会

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13 半導体 » 13.2 探索的材料物性・基礎物性

[20p-E303-1~14] 13.2 探索的材料物性・基礎物性

2019年9月20日(金) 13:45 〜 17:45 E303 (E303)

鵜殿 治彦(茨城大)、寺井 慶和(九工大)、原 康祐(山梨大)

15:00 〜 15:15

[20p-E303-5] Investigation of hydrogen states in semiconducting BaSi2 by muon spin rotation

〇(D)Zhihao Xu1、Takuma Sato1、Jumpei Nakamura2、Akihiro Koda2、koichiro Shimomura2、Takashi Suemasu1 (1.Univ. Tsukuba、2.KEK)

キーワード:hydrogen

BaSi2 has advantages over other solar cell materials from the viewpoints of a suitable band gap of 1.3 eV, a large absorption coefficient of 3 × 104 cm-1 at 1.5 eV, exceeding those of CIGS, and a large minority-carrier diffusion length of ca. 10 μm [1]. The electrically active defect levels of the order of 1013 cm-3 were detected even in high-quality BaSi2 films by deep-level transient spectroscopy, and they were considered to originate from Si vacancies (VSi) in BaSi2 [2]. According to the first-principle calculations by Kumar et al.[3] that VSi is most likely to occur as point defects in BaSi2. In the previous research, we passivated these VSi using atomic H by radio-frequency (RF) plasma generator. The photoresponsivity of BaSi2 passivated with atomic H is higher by one order of magnitude than the highest value previously reported, and the minority carrier lifetime was also improved to 14 μs, equivalent to its bulk carrier lifetime. These results show that atomic H is an effective method to passivate VSi [4]. Motivated by such a major role of H in BaSi2, we plan to clarify the physical and electronic structure of isolated H centers via their muonium (Mu) analog as performed in GaN [5]. This is the first time to apply muon spin rotation (μSR) measurement to BaSi2.