Determination of incommensurate modulated structure in
  Bi2Sr1.6La0.4CuO6+{\delta} by aberration-corrected transmission electron
  microscopy

Binghui Ge; Chen; Coene; De Wolff; Fan; Fu; Ge; Haider; Haider; Haider; Haihu Wen; Han; Hu; Huiqian Luo; Jia; Jia; Jia; Jia; Jia; Jing Zhu; Kilaas; Kirkland; Kirkland; Lentzen; Li; Li; Li; Li; Li; Liu; Luo; Norman; Rong Yu; Rose; Saxton; Scherzer; Sha; Slezak; Tang; Texier; Torardi; Van Aert; Van Dyck; Wan; Wan; Wen; Willhammar; Yu; Yumei Wang; Zhiying Cheng

research

Determination of incommensurate modulated structure in Bi2Sr1.6La0.4CuO6+{\delta} by aberration-corrected transmission electron microscopy

Authors: Binghui Ge
Chen
Coene
De Wolff
Fan
Fu
Ge
Haider
Haider
Haider
Haihu Wen
Han
Hu
Huiqian Luo
Jia
Jia
Jia
Jia
Jia
Jing Zhu
Kilaas
Kirkland
Kirkland
Lentzen
Li
Li
Li
Li
Li
Liu
Luo
Norman
Rong Yu
Rose
Saxton
Scherzer
Sha
Slezak
Tang
Texier
Torardi
Van Aert
Van Dyck
Wan
Wan
Wen
Willhammar
Yu
Yumei Wang
Zhiying Cheng
Publication date: 5 September 2012
Publisher: 'Elsevier BV'
Doi

Abstract

Incommensurate modulated structure (IMS) in Bi2Sr1.6La0.4CuO6+{\delta} (BSLCO) has been studied by aberration corrected transmission electron microscopy in combination with high-dimensional (HD) space description. Two images in the negative Cs imaging (NCSI) and passive Cs imaging (PCSI) modes were deconvoluted, respectively. Similar results as to IMS have been obtained from two corresponding projected potential maps (PPMs), but meanwhile the size of dots representing atoms in the NCSI PPM is found to be smaller than that in PCSI one. Considering that size is one of influencing factors of precision, modulation functions for all unoverlapped atoms in BSLCO were determined based on the PPM obtained from the NCSI image in combination with HD space description

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