Competition between phase separation and spin density wave or charge density wave order: Role of long-range interactions

Bo Xiao; F. Hébert; G. Batrouni; R. T. Scalettar

doi:10.1103/PhysRevB.99.205145

Competition between phase separation and spin density wave or charge density wave order: Role of long-range interactions

Bo Xiao, F. Hébert, G. Batrouni, R. T. Scalettar

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

6 Scopus citations

Abstract

Recent studies of pairing and charge order in materials such as FeSe, SrTiO3, and 2H-NbSe2 have suggested that momentum dependence of the electron-phonon coupling plays an important role in their properties. Initial attempts to study Hamiltonians which either do not include or else truncate the range of Coulomb repulsion have noted that the resulting spatial nonlocality of the electron-phonon interaction leads to a dominant tendency to phase separation. Here we present quantum Monte Carlo results for such models in which we incorporate both on-site and intersite electron-electron interactions. We show that these can stabilize phases in which the density is homogeneous and determine the associated phase boundaries. As a consequence, the physics of momentum dependent electron-phonon coupling can be determined outside of the trivial phase separated regime.

Original language	English
Article number	205145
Journal	Physical Review B
Volume	99
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevB.99.205145
State	Published - May 24 2019
Externally published	Yes

Funding

B.X. and R.T.S. were supported by Department of Energy Grant No. DE-SC0014671. F.H. and G.G.B. were supported by the French government, through the UCAJEDI Investments in the Future project managed by the National Research Agency Project No. ANR-15-IDEX-01, and by Beijing Computational Science Research Center.

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abstract = "Recent studies of pairing and charge order in materials such as FeSe, SrTiO3, and 2H-NbSe2 have suggested that momentum dependence of the electron-phonon coupling plays an important role in their properties. Initial attempts to study Hamiltonians which either do not include or else truncate the range of Coulomb repulsion have noted that the resulting spatial nonlocality of the electron-phonon interaction leads to a dominant tendency to phase separation. Here we present quantum Monte Carlo results for such models in which we incorporate both on-site and intersite electron-electron interactions. We show that these can stabilize phases in which the density is homogeneous and determine the associated phase boundaries. As a consequence, the physics of momentum dependent electron-phonon coupling can be determined outside of the trivial phase separated regime.",

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AU - Xiao, Bo

AU - Hébert, F.

AU - Batrouni, G.

AU - Scalettar, R. T.

PY - 2019/5/24

Y1 - 2019/5/24

N2 - Recent studies of pairing and charge order in materials such as FeSe, SrTiO3, and 2H-NbSe2 have suggested that momentum dependence of the electron-phonon coupling plays an important role in their properties. Initial attempts to study Hamiltonians which either do not include or else truncate the range of Coulomb repulsion have noted that the resulting spatial nonlocality of the electron-phonon interaction leads to a dominant tendency to phase separation. Here we present quantum Monte Carlo results for such models in which we incorporate both on-site and intersite electron-electron interactions. We show that these can stabilize phases in which the density is homogeneous and determine the associated phase boundaries. As a consequence, the physics of momentum dependent electron-phonon coupling can be determined outside of the trivial phase separated regime.

AB - Recent studies of pairing and charge order in materials such as FeSe, SrTiO3, and 2H-NbSe2 have suggested that momentum dependence of the electron-phonon coupling plays an important role in their properties. Initial attempts to study Hamiltonians which either do not include or else truncate the range of Coulomb repulsion have noted that the resulting spatial nonlocality of the electron-phonon interaction leads to a dominant tendency to phase separation. Here we present quantum Monte Carlo results for such models in which we incorporate both on-site and intersite electron-electron interactions. We show that these can stabilize phases in which the density is homogeneous and determine the associated phase boundaries. As a consequence, the physics of momentum dependent electron-phonon coupling can be determined outside of the trivial phase separated regime.

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Competition between phase separation and spin density wave or charge density wave order: Role of long-range interactions

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