Experimental investigation of the electronic structure of Ca 0.83La0.17Fe2As2

Yao Bo Huang; Pierre Richard; Ji Hui Wang; Xiao Ping Wang; Xun Shi; Nan Xu; Zheng Wu; Ang Li; Jia Xin Yin; Tian Qian; Bing Lv; Ching Wu Chu; Shu Heng Pan; Ming Shi; Hong Ding

doi:10.1088/0256-307X/30/1/017402

Experimental investigation of the electronic structure of Ca _0.83La_0.17Fe₂As₂

Yao Bo Huang, Pierre Richard, Ji Hui Wang, Xiao Ping Wang, Xun Shi, Nan Xu, Zheng Wu, Ang Li, Jia Xin Yin, Tian Qian, Bing Lv, Ching Wu Chu, Shu Heng Pan, Ming Shi, Hong Ding

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16 引文斯高帕斯（Scopus）

摘要

We performed a combined angle-resolved photoemission spectroscopy and scanning tunneling microscopy study of the electronic structure of electron-doped Ca_0.83La_0.17Fe₂As₂. A surface reconstruction associated with the dimerization of As atoms is observed directly in the real space, as well as the consequent band folding in the momentum space. Besides this band folding effect, the Fermi surface topology of this material is similar to that reported previously for BaFe _1.85Co_0.15As₂, with Γ-centered hole pockets quasi-nested to M-centered electron pockets by the antiferromagnetic wave vector. Although no superconducting gap is observed by ARPES possibly due to low superconducting volume fraction, a gap-like density of states depression of 7.7±2.9 meV is determined by scanning tunneling microscopy.

原文	English
文章編號	017402
期刊	Chinese Physics Letters
卷	30
發行號	1
DOIs	https://doi.org/10.1088/0256-307X/30/1/017402
出版狀態	Published - 2013 1月

All Science Journal Classification (ASJC) codes

一般物理與天文學

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10.1088/0256-307X/30/1/017402

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title = "Experimental investigation of the electronic structure of Ca 0.83La0.17Fe2As2",

abstract = "We performed a combined angle-resolved photoemission spectroscopy and scanning tunneling microscopy study of the electronic structure of electron-doped Ca0.83La0.17Fe2As2. A surface reconstruction associated with the dimerization of As atoms is observed directly in the real space, as well as the consequent band folding in the momentum space. Besides this band folding effect, the Fermi surface topology of this material is similar to that reported previously for BaFe 1.85Co0.15As2, with Γ-centered hole pockets quasi-nested to M-centered electron pockets by the antiferromagnetic wave vector. Although no superconducting gap is observed by ARPES possibly due to low superconducting volume fraction, a gap-like density of states depression of 7.7±2.9 meV is determined by scanning tunneling microscopy.",

author = "Huang, {Yao Bo} and Pierre Richard and Wang, {Ji Hui} and Wang, {Xiao Ping} and Xun Shi and Nan Xu and Zheng Wu and Ang Li and Yin, {Jia Xin} and Tian Qian and Bing Lv and Chu, {Ching Wu} and Pan, {Shu Heng} and Ming Shi and Hong Ding",

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doi = "10.1088/0256-307X/30/1/017402",

language = "English",

volume = "30",

journal = "Chinese Physics Letters",

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T1 - Experimental investigation of the electronic structure of Ca 0.83La0.17Fe2As2

AU - Huang, Yao Bo

AU - Richard, Pierre

AU - Wang, Ji Hui

AU - Wang, Xiao Ping

AU - Shi, Xun

AU - Xu, Nan

AU - Wu, Zheng

AU - Li, Ang

AU - Yin, Jia Xin

AU - Qian, Tian

AU - Lv, Bing

AU - Chu, Ching Wu

AU - Pan, Shu Heng

AU - Shi, Ming

AU - Ding, Hong

PY - 2013/1

Y1 - 2013/1

N2 - We performed a combined angle-resolved photoemission spectroscopy and scanning tunneling microscopy study of the electronic structure of electron-doped Ca0.83La0.17Fe2As2. A surface reconstruction associated with the dimerization of As atoms is observed directly in the real space, as well as the consequent band folding in the momentum space. Besides this band folding effect, the Fermi surface topology of this material is similar to that reported previously for BaFe 1.85Co0.15As2, with Γ-centered hole pockets quasi-nested to M-centered electron pockets by the antiferromagnetic wave vector. Although no superconducting gap is observed by ARPES possibly due to low superconducting volume fraction, a gap-like density of states depression of 7.7±2.9 meV is determined by scanning tunneling microscopy.

AB - We performed a combined angle-resolved photoemission spectroscopy and scanning tunneling microscopy study of the electronic structure of electron-doped Ca0.83La0.17Fe2As2. A surface reconstruction associated with the dimerization of As atoms is observed directly in the real space, as well as the consequent band folding in the momentum space. Besides this band folding effect, the Fermi surface topology of this material is similar to that reported previously for BaFe 1.85Co0.15As2, with Γ-centered hole pockets quasi-nested to M-centered electron pockets by the antiferromagnetic wave vector. Although no superconducting gap is observed by ARPES possibly due to low superconducting volume fraction, a gap-like density of states depression of 7.7±2.9 meV is determined by scanning tunneling microscopy.

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VL - 30

JO - Chinese Physics Letters

JF - Chinese Physics Letters

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ER -

Experimental investigation of the electronic structure of Ca 0.83La0.17Fe2As2

摘要

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Experimental investigation of the electronic structure of Ca _0.83La_0.17Fe₂As₂