Revealing charge density wave formation in the LaTe2 system by angle resolved photoemission spectroscopy

D. R. Garcia; G. H. Gweon; S. Y. Zhou; J. Graf; C. M. Jozwiak; M. H. Jung; Y. S. Kwon; A. Lanzara

doi:10.1103/PhysRevLett.98.166403

Revealing charge density wave formation in the LaTe2 system by angle resolved photoemission spectroscopy

D. R. Garcia, G. H. Gweon, S. Y. Zhou, J. Graf, C. M. Jozwiak, M. H. Jung, Y. S. Kwon, A. Lanzara

Department of Physics and Chemistry

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

32 Scopus citations

Abstract

We present the first direct study of charge density wave (CDW) formation in quasi-2D single layer LaTe2 using high-resolution angle resolved photoemission spectroscopy and low energy electron diffraction. CDW formation is driven by Fermi surface (FS) nesting, however, characterized by a surprisingly smaller gap (50meV) than seen in the double layer RTe2 compounds, extending over the entire FS. This establishes LaTe2 as the first reported semiconducting 2D CDW system where the CDW phase is FS nesting driven. In addition, the layer dependence of this phase in the tellurides and the possible transition from a stripe to a checkerboard phase is discussed.

Original language	English
Article number	166403
Journal	Physical Review Letters
Volume	98
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.98.166403
State	Published - 18 Apr 2007

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10.1103/PhysRevLett.98.166403

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title = "Revealing charge density wave formation in the LaTe2 system by angle resolved photoemission spectroscopy",

abstract = "We present the first direct study of charge density wave (CDW) formation in quasi-2D single layer LaTe2 using high-resolution angle resolved photoemission spectroscopy and low energy electron diffraction. CDW formation is driven by Fermi surface (FS) nesting, however, characterized by a surprisingly smaller gap (50meV) than seen in the double layer RTe2 compounds, extending over the entire FS. This establishes LaTe2 as the first reported semiconducting 2D CDW system where the CDW phase is FS nesting driven. In addition, the layer dependence of this phase in the tellurides and the possible transition from a stripe to a checkerboard phase is discussed.",

author = "Garcia, \{D. R.\} and Gweon, \{G. H.\} and Zhou, \{S. Y.\} and J. Graf and Jozwiak, \{C. M.\} and Jung, \{M. H.\} and Kwon, \{Y. S.\} and A. Lanzara",

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T1 - Revealing charge density wave formation in the LaTe2 system by angle resolved photoemission spectroscopy

AU - Garcia, D. R.

AU - Gweon, G. H.

AU - Zhou, S. Y.

AU - Graf, J.

AU - Jozwiak, C. M.

AU - Jung, M. H.

AU - Kwon, Y. S.

AU - Lanzara, A.

PY - 2007/4/18

Y1 - 2007/4/18

N2 - We present the first direct study of charge density wave (CDW) formation in quasi-2D single layer LaTe2 using high-resolution angle resolved photoemission spectroscopy and low energy electron diffraction. CDW formation is driven by Fermi surface (FS) nesting, however, characterized by a surprisingly smaller gap (50meV) than seen in the double layer RTe2 compounds, extending over the entire FS. This establishes LaTe2 as the first reported semiconducting 2D CDW system where the CDW phase is FS nesting driven. In addition, the layer dependence of this phase in the tellurides and the possible transition from a stripe to a checkerboard phase is discussed.

AB - We present the first direct study of charge density wave (CDW) formation in quasi-2D single layer LaTe2 using high-resolution angle resolved photoemission spectroscopy and low energy electron diffraction. CDW formation is driven by Fermi surface (FS) nesting, however, characterized by a surprisingly smaller gap (50meV) than seen in the double layer RTe2 compounds, extending over the entire FS. This establishes LaTe2 as the first reported semiconducting 2D CDW system where the CDW phase is FS nesting driven. In addition, the layer dependence of this phase in the tellurides and the possible transition from a stripe to a checkerboard phase is discussed.

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DO - 10.1103/PhysRevLett.98.166403

M3 - Article

AN - SCOPUS:34247198900

SN - 0031-9007

VL - 98

JO - Physical Review Letters

JF - Physical Review Letters

IS - 16

M1 - 166403

ER -

Revealing charge density wave formation in the LaTe2 system by angle resolved photoemission spectroscopy

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