Anti-site defect effect on the electronic structure of a Bi2Te3 topological insulator

Pei-Yu Chuang; Shu-Hsuan Su; Cheong-Wei Chong; Yi-Fan Chen; Yu-Heng Chou; Jung-Chun-Andrew Huang; Wei-Chuan Chen; Cheng-Maw Cheng; Ku-Ding Tsuei; Chia-Hsin Wang; Yaw-Wen Yang; Yen-Fa Liao; Shih-Chang Weng; Jyh-Fu Lee; Yi-Kang Lan; Shen-Lin Chang; Chi-Hsuan Lee; Chih-Kai Yang; Hai-Lin Su; Yu-Cheng Wu

doi:10.1039/C7RA08995C

Anti-site defect effect on the electronic structure of a Bi₂Te₃ topological insulator

Pei-Yu Chuang,^a Shu-Hsuan Su,*^a Cheong-Wei Chong,^a Yi-Fan Chen,^a Yu-Heng Chou,^a Jung-Chun-Andrew Huang,

*^abc Wei-Chuan Chen,^d Cheng-Maw Cheng,*^d Ku-Ding Tsuei,^d Chia-Hsin Wang,^d Yaw-Wen Yang,^d Yen-Fa Liao,^d Shih-Chang Weng,^d Jyh-Fu Lee,^d Yi-Kang Lan,^e Shen-Lin Chang,^f Chi-Hsuan Lee,^g Chih-Kai Yang,^g Hai-Lin Su^h and Yu-Cheng Wu

^h

Author affiliations

* Corresponding authors

^a Department of Physics, National Cheng Kung University, Tainan 701, Taiwan
E-mail: jcahuang@mail.ncku.edu.tw, macg0510@yahoo.com.tw

^b Advanced Optoelectronic Technology Center, National Cheng Kung University, Tainan 701, Taiwan

^c Taiwan Consortium of Emergent Crystalline Materials, Ministry of Science and Technology, Taipei 106, Taiwan

^d National Synchrotron Radiation Research Center, Hsinchu 300, Taiwan
E-mail: makalu@nsrrc.org.tw

^e Materials and Electro-Optic Research Division, National Chung-Shan Institute of Science and Technology, Taoyuan 325, Taiwan

^f Department of Electrophysics, National Chiao Tung University, Hsinchu 300, Taiwan

^g Graduate Institute of Applied Physics, National Chengchi University, Taipei 116, Taiwan

^h School of Materials Science and Engineering, Anhui Provincial Key Laboratory of Advanced Functional Materials and Devices, Hefei University of Technology, Hefei 230009, People's Republic of China

Abstract

Tuning the Fermi level (E_F) in Bi₂Te₃ topological-insulator (TI) films is demonstrated on controlling the temperature of growth with molecular-beam epitaxy (MBE). Angle-resolved photoemission spectra (ARPES) reveal that E_F of Bi₂Te₃ thin films shifts systematically with the growth temperature (T_g). The key role that a Bi-on-Te(1) (Bi_Te1) antisite defect plays in the electronic structure is identified through extended X-ray-absorption fine-structure (EXAFS) spectra at the Bi L₃-edge. Calculations of electronic structure support the results of fitting the EXAFS, indicating that the variation of E_F is due to the formation and suppression of Bi_Te1 that is tunable with the growth temperature. Our findings provide not only insight into the correlation between the defect structure and electronic properties but also a simple route to control the intrinsic topological surface states, which could be useful for applications in TI-based advanced electronic and spintronic devices.

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Anti-site defect effect on the electronic structure of a Bi₂Te₃ topological insulator

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Anti-site defect effect on the electronic structure of a Bi₂Te₃ topological insulator

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