Ultrafast nematic-orbital excitation in FeSe

T. Shimojima; Y. Suzuki; A. Nakamura; N. Mitsuishi; S. Kasahara; T. Shibauchi; Y. Matsuda; Y. Ishida; S. Shin; K. Ishizaka

doi:10.1038/s41467-019-09869-5

Ultrafast nematic-orbital excitation in FeSe

T. Shimojima, Y. Suzuki, A. Nakamura, N. Mitsuishi, S. Kasahara, T. Shibauchi, Y. Matsuda, Y. Ishida, S. Shin, K. Ishizaka

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

15 Citations (Scopus)

Abstract

The electronic nematic phase is an unconventional state of matter that spontaneously breaks the rotational symmetry of electrons. In iron-pnictides/chalcogenides and cuprates, the nematic ordering and fluctuations have been suggested to have as-yet-unconfirmed roles in superconductivity. However, most studies have been conducted in thermal equilibrium, where the dynamical property and excitation can be masked by the coupling with the lattice. Here we use femtosecond optical pulse to perturb the electronic nematic order in FeSe. Through time-, energy-, momentum- and orbital-resolved photo-emission spectroscopy, we detect the ultrafast dynamics of electronic nematicity. In the strong-excitation regime, through the observation of Fermi surface anisotropy, we find a quick disappearance of the nematicity followed by a heavily-damped oscillation. This short-life nematicity oscillation is seemingly related to the imbalance of Fe 3d _xz and d _yz orbitals. These phenomena show critical behavior as a function of pump fluence. Our real-time observations reveal the nature of the electronic nematic excitation instantly decoupled from the underlying lattice.

Original language	English
Article number	1946
Journal	Nature communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-09869-5
Publication status	Published - Dec 1 2019
Externally published	Yes

ASJC Scopus subject areas

Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)
Physics and Astronomy(all)

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10.1038/s41467-019-09869-5

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title = "Ultrafast nematic-orbital excitation in FeSe",

abstract = " The electronic nematic phase is an unconventional state of matter that spontaneously breaks the rotational symmetry of electrons. In iron-pnictides/chalcogenides and cuprates, the nematic ordering and fluctuations have been suggested to have as-yet-unconfirmed roles in superconductivity. However, most studies have been conducted in thermal equilibrium, where the dynamical property and excitation can be masked by the coupling with the lattice. Here we use femtosecond optical pulse to perturb the electronic nematic order in FeSe. Through time-, energy-, momentum- and orbital-resolved photo-emission spectroscopy, we detect the ultrafast dynamics of electronic nematicity. In the strong-excitation regime, through the observation of Fermi surface anisotropy, we find a quick disappearance of the nematicity followed by a heavily-damped oscillation. This short-life nematicity oscillation is seemingly related to the imbalance of Fe 3d xz and d yz orbitals. These phenomena show critical behavior as a function of pump fluence. Our real-time observations reveal the nature of the electronic nematic excitation instantly decoupled from the underlying lattice. ",

author = "T. Shimojima and Y. Suzuki and A. Nakamura and N. Mitsuishi and S. Kasahara and T. Shibauchi and Y. Matsuda and Y. Ishida and S. Shin and K. Ishizaka",

note = "Funding Information: We thank M. Imada, Y. Yamaji, Y. Gallais and I. Paul for valuable discussions. We acknowledge H. Kontani and Y. Yamakawa for valuable discussions and band calculations. This research was supported by the Photon Frontier Network Program of the MEXT, the CREST project of the JST (Grant Number JPMJCR16F2), Grant-in-Aid for Scientific Research (KAKENHI) (Grant Nos. 15H03687, 15H02106, 15KK0160, 18H01177, 18H05227 and 18H01148) and on Innovative Areas ''Topological Material Science{"} (No. 15H05852) from Japan Society for the Promotion of Science (JSPS). Publisher Copyright: {\textcopyright} 2019, The Author(s).",

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AU - Shimojima, T.

AU - Suzuki, Y.

AU - Nakamura, A.

AU - Mitsuishi, N.

AU - Kasahara, S.

AU - Shibauchi, T.

AU - Matsuda, Y.

AU - Ishida, Y.

AU - Shin, S.

AU - Ishizaka, K.

N1 - Funding Information: We thank M. Imada, Y. Yamaji, Y. Gallais and I. Paul for valuable discussions. We acknowledge H. Kontani and Y. Yamakawa for valuable discussions and band calculations. This research was supported by the Photon Frontier Network Program of the MEXT, the CREST project of the JST (Grant Number JPMJCR16F2), Grant-in-Aid for Scientific Research (KAKENHI) (Grant Nos. 15H03687, 15H02106, 15KK0160, 18H01177, 18H05227 and 18H01148) and on Innovative Areas ''Topological Material Science" (No. 15H05852) from Japan Society for the Promotion of Science (JSPS). Publisher Copyright: © 2019, The Author(s).

PY - 2019/12/1

Y1 - 2019/12/1

N2 - The electronic nematic phase is an unconventional state of matter that spontaneously breaks the rotational symmetry of electrons. In iron-pnictides/chalcogenides and cuprates, the nematic ordering and fluctuations have been suggested to have as-yet-unconfirmed roles in superconductivity. However, most studies have been conducted in thermal equilibrium, where the dynamical property and excitation can be masked by the coupling with the lattice. Here we use femtosecond optical pulse to perturb the electronic nematic order in FeSe. Through time-, energy-, momentum- and orbital-resolved photo-emission spectroscopy, we detect the ultrafast dynamics of electronic nematicity. In the strong-excitation regime, through the observation of Fermi surface anisotropy, we find a quick disappearance of the nematicity followed by a heavily-damped oscillation. This short-life nematicity oscillation is seemingly related to the imbalance of Fe 3d xz and d yz orbitals. These phenomena show critical behavior as a function of pump fluence. Our real-time observations reveal the nature of the electronic nematic excitation instantly decoupled from the underlying lattice.

AB - The electronic nematic phase is an unconventional state of matter that spontaneously breaks the rotational symmetry of electrons. In iron-pnictides/chalcogenides and cuprates, the nematic ordering and fluctuations have been suggested to have as-yet-unconfirmed roles in superconductivity. However, most studies have been conducted in thermal equilibrium, where the dynamical property and excitation can be masked by the coupling with the lattice. Here we use femtosecond optical pulse to perturb the electronic nematic order in FeSe. Through time-, energy-, momentum- and orbital-resolved photo-emission spectroscopy, we detect the ultrafast dynamics of electronic nematicity. In the strong-excitation regime, through the observation of Fermi surface anisotropy, we find a quick disappearance of the nematicity followed by a heavily-damped oscillation. This short-life nematicity oscillation is seemingly related to the imbalance of Fe 3d xz and d yz orbitals. These phenomena show critical behavior as a function of pump fluence. Our real-time observations reveal the nature of the electronic nematic excitation instantly decoupled from the underlying lattice.

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Ultrafast nematic-orbital excitation in FeSe

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