Tunable topologically driven Fermi arc van Hove singularities
The classification scheme of electronic phases uses two prominent paradigms: correlations and topology. Electron correlations give rise to superconductivity and charge density waves, while the quantum geometric Berry phase gives rise to electronic topology. The intersection of these two paradigms ha...
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sg-ntu-dr.10356-1649542023-04-04T00:59:32Z Tunable topologically driven Fermi arc van Hove singularities Sanchez, Daniel S. Cochran, Tyler A. Belopolski, Ilya Cheng, Zi-Jia Yang, Xian P. Liu, Yiyuan Hou, Tao Xu, Xitong Manna, Kaustuv Shekhar, Chandra Yin, Jia-Xin Borrmann, Horst Chikina, Alla Denlinger, Jonathan D. Strocov, Vladimir N. Xie, Weiwei Felser, Claudia Jia, Shuang Chang, Guoqing Hasan, M. Zahid School of Physical and Mathematical Sciences Science::Physics::Electricity and magnetism Engineering Tunables Van Hove Singularities The classification scheme of electronic phases uses two prominent paradigms: correlations and topology. Electron correlations give rise to superconductivity and charge density waves, while the quantum geometric Berry phase gives rise to electronic topology. The intersection of these two paradigms has initiated an effort to discover electronic instabilities at or near the Fermi level of topological materials. Here we identify the electronic topology of chiral fermions as the driving mechanism for creating van Hove singularities that host electronic instabilities in the surface band structure. We observe that the chiral fermion conductors RhSi and CoSi possess two types of helicoid arc van Hove singularities that we call type I and type II. In RhSi, the type I variety drives a switching of the connectivity of the helicoid arcs at different energies. In CoSi, we measure a type II intra-helicoid arc van Hove singularity near the Fermi level. Chemical engineering methods are able to tune the energy of these singularities. Finally, electronic susceptibility calculations allow us to visualize the dominant Fermi surface nesting vectors of the helicoid arc singularities, consistent with recent observations of surface charge density wave ordering in CoSi. This suggests a connection between helicoid arc singularities and surface charge density waves. Nanyang Technological University National Research Foundation (NRF) Submitted/Accepted version Work at Princeton University and Princeton-led synchrotron based ARPES measurements were supported by the U.S. Department of Energy (DOE) under the Basic Energy Sciences programme (grant no. DOE/BES DE-FG-02-05ER46200). This research used resources of the Advanced Light Source, which is a DOE Office of Science User Facility under contract No. DE-AC02-05CH11231. We acknowledge the Paul Scherrer Institut, Villigen, Switzerland for provision of synchrotron radiation beam time at the ADRESS beam line of the Swiss Light Source. G.C. acknowledges support from the National Research Foundation, Singapore under NRF fellowship award no. NRF-NRFF13-2021-0010 and a Nanyang Assistant Professorship grant from Nanyang Technological University. K.M. acknowledges the Department of Atomic Energy (DAE), Government of India for funding support via a young scientist’s research award (YSRA) with grant no. 58/20/03/2021-BRNS/37084. T.A.C. was supported by the National Science Foundation Graduate Research Fellowship Program under grant no. DGE-1656466. 2023-03-06T03:01:43Z 2023-03-06T03:01:43Z 2023 Journal Article Sanchez, D. S., Cochran, T. A., Belopolski, I., Cheng, Z., Yang, X. P., Liu, Y., Hou, T., Xu, X., Manna, K., Shekhar, C., Yin, J., Borrmann, H., Chikina, A., Denlinger, J. D., Strocov, V. N., Xie, W., Felser, C., Jia, S., Chang, G. & Hasan, M. Z. (2023). Tunable topologically driven Fermi arc van Hove singularities. Nature Physics. https://dx.doi.org/https://doi.org/10.1038/s41567-022-01892-6 1745-2473 https://hdl.handle.net/10356/164954 10.1038/s41567-022-01892-6 en NRF-NRFF13-2021-0010 Nanyang Assistant Professorship (NAP) Nature Physics © 2023 The Author(s), under exclusive licence to Springer Nature Limited. All rights reserved. This version of the article has been accepted for publication, after peer review and is subject to Springer Nature’s AM terms of use, but is not the Version of Record and does not reflect post-acceptance improvements, or any corrections. The Version of Record is available online at: http://dx.doi.org/ 10.1038/s41567-022-01892-6. application/pdf |
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Science::Physics::Electricity and magnetism Engineering Tunables Van Hove Singularities Sanchez, Daniel S. Cochran, Tyler A. Belopolski, Ilya Cheng, Zi-Jia Yang, Xian P. Liu, Yiyuan Hou, Tao Xu, Xitong Manna, Kaustuv Shekhar, Chandra Yin, Jia-Xin Borrmann, Horst Chikina, Alla Denlinger, Jonathan D. Strocov, Vladimir N. Xie, Weiwei Felser, Claudia Jia, Shuang Chang, Guoqing Hasan, M. Zahid Tunable topologically driven Fermi arc van Hove singularities |
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The classification scheme of electronic phases uses two prominent paradigms: correlations and topology. Electron correlations give rise to superconductivity and charge density waves, while the quantum geometric Berry phase gives rise to electronic topology. The intersection of these two paradigms has initiated an effort to discover electronic instabilities at or near the Fermi level of topological materials. Here we identify the electronic topology of chiral fermions as the driving mechanism for creating van Hove singularities that host electronic instabilities in the surface band structure. We observe that the chiral fermion conductors RhSi and CoSi possess two types of helicoid arc van Hove singularities that we call type I and type II. In RhSi, the type I variety drives a switching of the connectivity of the helicoid arcs at different energies. In CoSi, we measure a type II intra-helicoid arc van Hove singularity near the Fermi level. Chemical engineering methods are able to tune the energy of these singularities. Finally, electronic susceptibility calculations allow us to visualize the dominant Fermi surface nesting vectors of the helicoid arc singularities, consistent with recent observations of surface charge density wave ordering in CoSi. This suggests a connection between helicoid arc singularities and surface charge density waves. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Sanchez, Daniel S. Cochran, Tyler A. Belopolski, Ilya Cheng, Zi-Jia Yang, Xian P. Liu, Yiyuan Hou, Tao Xu, Xitong Manna, Kaustuv Shekhar, Chandra Yin, Jia-Xin Borrmann, Horst Chikina, Alla Denlinger, Jonathan D. Strocov, Vladimir N. Xie, Weiwei Felser, Claudia Jia, Shuang Chang, Guoqing Hasan, M. Zahid |
| format |
Article |
| author |
Sanchez, Daniel S. Cochran, Tyler A. Belopolski, Ilya Cheng, Zi-Jia Yang, Xian P. Liu, Yiyuan Hou, Tao Xu, Xitong Manna, Kaustuv Shekhar, Chandra Yin, Jia-Xin Borrmann, Horst Chikina, Alla Denlinger, Jonathan D. Strocov, Vladimir N. Xie, Weiwei Felser, Claudia Jia, Shuang Chang, Guoqing Hasan, M. Zahid |
| author_sort |
Sanchez, Daniel S. |
| title |
Tunable topologically driven Fermi arc van Hove singularities |
| title_short |
Tunable topologically driven Fermi arc van Hove singularities |
| title_full |
Tunable topologically driven Fermi arc van Hove singularities |
| title_fullStr |
Tunable topologically driven Fermi arc van Hove singularities |
| title_full_unstemmed |
Tunable topologically driven Fermi arc van Hove singularities |
| title_sort |
tunable topologically driven fermi arc van hove singularities |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164954 |
| _version_ |
1764208144327639040 |