Electronic correlation effects in the kagome magnet GdMn6Sn6

The recently discovered kagome magnet R Mn6Sn6 ( R = Y and lanthanides) features a variety of magnetic ground states and exhibits topological quantum phases. Here we report on a combined angle-resolved photoemission spectroscopy and first-principles calculations study of the electronic structure in...

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Veröffentlicht in:	Physical review. B 2021-09, Vol.104 (11), p.1
Hauptverfasser:	Liu, Zhonghao, Zhao, Ningning, Li, Man, Yin, Qiangwei, Wang, Qi, Liu, Zhengtai, Shen, Dawei, Huang, Yaobo, Lei, Hechang, Liu, Kai, Wang, Shancai
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Schlagworte:	Correlation Dispersions Electronic structure Ferrimagnetism First principles Gadolinium Kagome lattice Lanthanides Mathematical analysis Photoelectric emission Saddle points
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creator	Liu, Zhonghao Zhao, Ningning Li, Man Yin, Qiangwei Wang, Qi Liu, Zhengtai Shen, Dawei Huang, Yaobo Lei, Hechang Liu, Kai Wang, Shancai
description	The recently discovered kagome magnet R Mn6Sn6 ( R = Y and lanthanides) features a variety of magnetic ground states and exhibits topological quantum phases. Here we report on a combined angle-resolved photoemission spectroscopy and first-principles calculations study of the electronic structure in Gd Mn6Sn6, which contains Mn kagome lattice with in-plane ferrimagnetism. Typical kagome electronic dispersions are found around the Fermi energy ( EF), i.e., Dirac dispersions, flat bands (FBs), and saddle points. The Dirac dispersions with dz2 orbital characters at EF are sensitive to adding onsite Hubbard U on the Mn 3d atoms, revealing that electronic correlation effectively modulates the Dirac dispersions of a kagome magnet Gd Mn6Sn6. On the other hand, to match the observed FBs with dxy/dx2−y2 orbital characters around 0.4 eV below EF, the calculated bands are still needed to be overall renormalized by a factor of about 2 after adding a small U for matching the Dirac dispersions at EF. The different electronic correlations, which are directly reflected by the Hubbard U and the renormalization factor, could be associated with the orbital-selective kagome bands at the different binding energies. Our findings could have an instructive significance to tuning the individual kagome feature via the electronic correlations.
doi_str_mv	10.1103/PhysRevB.104.115122
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Here we report on a combined angle-resolved photoemission spectroscopy and first-principles calculations study of the electronic structure in Gd Mn6Sn6, which contains Mn kagome lattice with in-plane ferrimagnetism. Typical kagome electronic dispersions are found around the Fermi energy ( EF), i.e., Dirac dispersions, flat bands (FBs), and saddle points. The Dirac dispersions with dz2 orbital characters at EF are sensitive to adding onsite Hubbard U on the Mn 3d atoms, revealing that electronic correlation effectively modulates the Dirac dispersions of a kagome magnet Gd Mn6Sn6. On the other hand, to match the observed FBs with dxy/dx2−y2 orbital characters around 0.4 eV below EF, the calculated bands are still needed to be overall renormalized by a factor of about 2 after adding a small U for matching the Dirac dispersions at EF. 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On the other hand, to match the observed FBs with dxy/dx2−y2 orbital characters around 0.4 eV below EF, the calculated bands are still needed to be overall renormalized by a factor of about 2 after adding a small U for matching the Dirac dispersions at EF. The different electronic correlations, which are directly reflected by the Hubbard U and the renormalization factor, could be associated with the orbital-selective kagome bands at the different binding energies. 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B</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Liu, Zhonghao</au><au>Zhao, Ningning</au><au>Li, Man</au><au>Yin, Qiangwei</au><au>Wang, Qi</au><au>Liu, Zhengtai</au><au>Shen, Dawei</au><au>Huang, Yaobo</au><au>Lei, Hechang</au><au>Liu, Kai</au><au>Wang, Shancai</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Electronic correlation effects in the kagome magnet GdMn6Sn6</atitle><jtitle>Physical review. B</jtitle><date>2021-09-15</date><risdate>2021</risdate><volume>104</volume><issue>11</issue><spage>1</spage><pages>1-</pages><issn>2469-9950</issn><eissn>2469-9969</eissn><abstract>The recently discovered kagome magnet R Mn6Sn6 ( R = Y and lanthanides) features a variety of magnetic ground states and exhibits topological quantum phases. Here we report on a combined angle-resolved photoemission spectroscopy and first-principles calculations study of the electronic structure in Gd Mn6Sn6, which contains Mn kagome lattice with in-plane ferrimagnetism. Typical kagome electronic dispersions are found around the Fermi energy ( EF), i.e., Dirac dispersions, flat bands (FBs), and saddle points. The Dirac dispersions with dz2 orbital characters at EF are sensitive to adding onsite Hubbard U on the Mn 3d atoms, revealing that electronic correlation effectively modulates the Dirac dispersions of a kagome magnet Gd Mn6Sn6. On the other hand, to match the observed FBs with dxy/dx2−y2 orbital characters around 0.4 eV below EF, the calculated bands are still needed to be overall renormalized by a factor of about 2 after adding a small U for matching the Dirac dispersions at EF. The different electronic correlations, which are directly reflected by the Hubbard U and the renormalization factor, could be associated with the orbital-selective kagome bands at the different binding energies. Our findings could have an instructive significance to tuning the individual kagome feature via the electronic correlations.</abstract><cop>College Park</cop><pub>American Physical Society</pub><doi>10.1103/PhysRevB.104.115122</doi></addata></record>
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subjects	Correlation Dispersions Electronic structure Ferrimagnetism First principles Gadolinium Kagome lattice Lanthanides Mathematical analysis Photoelectric emission Saddle points
title	Electronic correlation effects in the kagome magnet GdMn6Sn6
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