Nonlinear nanoelectrodynamics of a Weyl metal

Yinming Shao; Ran Jing; Sang Hoon Chae; Chong Wang; Zhiyuan Sun; Eve Emmanouilidou; Suheng Xu; Dorri Halbertal; Baichang Li; Anjaly Rajendran; Francesco L. Ruta; Lin Xiong; Yinan Dong; Alexander S. McLeod; Sai S. Sunku; James C. Hone; Joel Moore; Joe Orenstein; James G. Analytis; Andrew J. Millis; Ni Ni; Di Xiao; D. N. Basov

doi:10.1073/pnas.2116366118

Nonlinear nanoelectrodynamics of a Weyl metal

Yinming Shao^*, Ran Jing, Sang Hoon Chae, Chong Wang, Zhiyuan Sun, Eve Emmanouilidou, Suheng Xu, Dorri Halbertal, Baichang Li, Anjaly Rajendran, Francesco L. Ruta, Lin Xiong, Yinan Dong, Alexander S. McLeod, Sai S. Sunku, James C. Hone, Joel Moore, Joe Orenstein, James G. Analytis, Andrew J. MillisNi Ni, Di Xiao, D. N. Basov^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

Chiral Weyl fermions with linear energy-momentum dispersion in the bulk accompanied by Fermi-arc states on the surfaces prompt a host of enticing optical effects. While new Weyl semimetal materials keep emerging, the available optical probes are limited. In particular, isolating bulk and surface electrodynamics in Weyl conductors remains a challenge. We devised an approach to the problem based on near-field photocurrent imaging at the nanoscale and applied this technique to a prototypical Weyl semimetal TaIrTe₄. As a first step, we visualized nano-photocurrent patterns in real space and demonstrated their connection to bulk nonlinear conductivity tensors through extensive modeling augmented with density functional theory calculations. Notably, our nanoscale probe gives access to not only the in-plane but also the out-of-plane electric fields so that it is feasible to interrogate all allowed nonlinear tensors including those that remained dormant in conventional far-field optics. Surface- and bulk-related nonlinear contributions are distinguished through their “symmetry fingerprints” in the photocurrent maps. Robust photocurrents also appear at mirror-symmetry breaking edges of TaIrTe₄ single crystals that we assign to nonlinear conductivity tensors forbidden in the bulk. Nano-photocurrent spectroscopy at the boundary reveals a strong resonance structure absent in the interior of the sample, providing evidence for elusive surface states.

Original language	English
Article number	e2116366118
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	48
DOIs	https://doi.org/10.1073/pnas.2116366118
Publication status	Published - Nov 30 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 National Academy of Sciences. All rights reserved.

ASJC Scopus Subject Areas

General

Keywords

near-field optics
nonlinear photocurrent
Weyl semimetal

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10.1073/pnas.2116366118

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Shao, Y., Jing, R., Chae, S. H., Wang, C., Sun, Z., Emmanouilidou, E., Xu, S., Halbertal, D., Li, B., Rajendran, A., Ruta, F. L., Xiong, L., Dong, Y., McLeod, A. S., Sunku, S. S., Hone, J. C., Moore, J., Orenstein, J., Analytis, J. G., ... Basov, D. N. (2021). Nonlinear nanoelectrodynamics of a Weyl metal. Proceedings of the National Academy of Sciences of the United States of America, 118(48), Article e2116366118. https://doi.org/10.1073/pnas.2116366118

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title = "Nonlinear nanoelectrodynamics of a Weyl metal",

abstract = "Chiral Weyl fermions with linear energy-momentum dispersion in the bulk accompanied by Fermi-arc states on the surfaces prompt a host of enticing optical effects. While new Weyl semimetal materials keep emerging, the available optical probes are limited. In particular, isolating bulk and surface electrodynamics in Weyl conductors remains a challenge. We devised an approach to the problem based on near-field photocurrent imaging at the nanoscale and applied this technique to a prototypical Weyl semimetal TaIrTe4. As a first step, we visualized nano-photocurrent patterns in real space and demonstrated their connection to bulk nonlinear conductivity tensors through extensive modeling augmented with density functional theory calculations. Notably, our nanoscale probe gives access to not only the in-plane but also the out-of-plane electric fields so that it is feasible to interrogate all allowed nonlinear tensors including those that remained dormant in conventional far-field optics. Surface- and bulk-related nonlinear contributions are distinguished through their “symmetry fingerprints” in the photocurrent maps. Robust photocurrents also appear at mirror-symmetry breaking edges of TaIrTe4 single crystals that we assign to nonlinear conductivity tensors forbidden in the bulk. Nano-photocurrent spectroscopy at the boundary reveals a strong resonance structure absent in the interior of the sample, providing evidence for elusive surface states.",

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author = "Yinming Shao and Ran Jing and Chae, {Sang Hoon} and Chong Wang and Zhiyuan Sun and Eve Emmanouilidou and Suheng Xu and Dorri Halbertal and Baichang Li and Anjaly Rajendran and Ruta, {Francesco L.} and Lin Xiong and Yinan Dong and McLeod, {Alexander S.} and Sunku, {Sai S.} and Hone, {James C.} and Joel Moore and Joe Orenstein and Analytis, {James G.} and Millis, {Andrew J.} and Ni Ni and Di Xiao and Basov, {D. N.}",

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doi = "10.1073/pnas.2116366118",

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Shao, Y, Jing, R, Chae, SH, Wang, C, Sun, Z, Emmanouilidou, E, Xu, S, Halbertal, D, Li, B, Rajendran, A, Ruta, FL, Xiong, L, Dong, Y, McLeod, AS, Sunku, SS, Hone, JC, Moore, J, Orenstein, J, Analytis, JG, Millis, AJ, Ni, N, Xiao, D & Basov, DN 2021, 'Nonlinear nanoelectrodynamics of a Weyl metal', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 48, e2116366118. https://doi.org/10.1073/pnas.2116366118

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T1 - Nonlinear nanoelectrodynamics of a Weyl metal

AU - Shao, Yinming

AU - Jing, Ran

AU - Chae, Sang Hoon

AU - Wang, Chong

AU - Sun, Zhiyuan

AU - Emmanouilidou, Eve

AU - Xu, Suheng

AU - Halbertal, Dorri

AU - Li, Baichang

AU - Rajendran, Anjaly

AU - Ruta, Francesco L.

AU - Xiong, Lin

AU - Dong, Yinan

AU - McLeod, Alexander S.

AU - Sunku, Sai S.

AU - Hone, James C.

AU - Moore, Joel

AU - Orenstein, Joe

AU - Analytis, James G.

AU - Millis, Andrew J.

AU - Ni, Ni

AU - Xiao, Di

AU - Basov, D. N.

PY - 2021/11/30

Y1 - 2021/11/30

N2 - Chiral Weyl fermions with linear energy-momentum dispersion in the bulk accompanied by Fermi-arc states on the surfaces prompt a host of enticing optical effects. While new Weyl semimetal materials keep emerging, the available optical probes are limited. In particular, isolating bulk and surface electrodynamics in Weyl conductors remains a challenge. We devised an approach to the problem based on near-field photocurrent imaging at the nanoscale and applied this technique to a prototypical Weyl semimetal TaIrTe4. As a first step, we visualized nano-photocurrent patterns in real space and demonstrated their connection to bulk nonlinear conductivity tensors through extensive modeling augmented with density functional theory calculations. Notably, our nanoscale probe gives access to not only the in-plane but also the out-of-plane electric fields so that it is feasible to interrogate all allowed nonlinear tensors including those that remained dormant in conventional far-field optics. Surface- and bulk-related nonlinear contributions are distinguished through their “symmetry fingerprints” in the photocurrent maps. Robust photocurrents also appear at mirror-symmetry breaking edges of TaIrTe4 single crystals that we assign to nonlinear conductivity tensors forbidden in the bulk. Nano-photocurrent spectroscopy at the boundary reveals a strong resonance structure absent in the interior of the sample, providing evidence for elusive surface states.

AB - Chiral Weyl fermions with linear energy-momentum dispersion in the bulk accompanied by Fermi-arc states on the surfaces prompt a host of enticing optical effects. While new Weyl semimetal materials keep emerging, the available optical probes are limited. In particular, isolating bulk and surface electrodynamics in Weyl conductors remains a challenge. We devised an approach to the problem based on near-field photocurrent imaging at the nanoscale and applied this technique to a prototypical Weyl semimetal TaIrTe4. As a first step, we visualized nano-photocurrent patterns in real space and demonstrated their connection to bulk nonlinear conductivity tensors through extensive modeling augmented with density functional theory calculations. Notably, our nanoscale probe gives access to not only the in-plane but also the out-of-plane electric fields so that it is feasible to interrogate all allowed nonlinear tensors including those that remained dormant in conventional far-field optics. Surface- and bulk-related nonlinear contributions are distinguished through their “symmetry fingerprints” in the photocurrent maps. Robust photocurrents also appear at mirror-symmetry breaking edges of TaIrTe4 single crystals that we assign to nonlinear conductivity tensors forbidden in the bulk. Nano-photocurrent spectroscopy at the boundary reveals a strong resonance structure absent in the interior of the sample, providing evidence for elusive surface states.

KW - near-field optics

KW - nonlinear photocurrent

KW - Weyl semimetal

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ER -

Nonlinear nanoelectrodynamics of a Weyl metal

Abstract

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Keywords

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