Exact diagonalization study of the Hubbard-parametrized four-spin ring exchange model on a square lattice

C. B. Larsen; A. T. Rømer; S. Janas; F. Treue; B. Mønsted; N. E. Shaik; H. M. Rønnow; K. Lefmann

doi:10.1103/PhysRevB.99.054432

Exact diagonalization study of the Hubbard-parametrized four-spin ring exchange model on a square lattice

C. B. Larsen, A. T. Rømer, S. Janas, F. Treue, B. Mønsted, N. E. Shaik, H. M. Rønnow, K. Lefmann

Xray and Neutron Science

3 Citations (Scopus)

Abstract

We have used exact numerical diagonalization to study the excitation spectrum and the dynamic spin correlations in the s=1/2 next-next-nearest-neighbor Heisenberg antiferromagnet on the square lattice, with additional four-spin ring exchange from higher-order terms in the Hubbard expansion. We have varied the ratio between Hubbard model parameters t/U to obtain different relative strengths of the exchange parameters, while keeping electrons localized. The Hubbard model parameters have been parametrized via an effective ring exchange coupling Jr, which have been varied between 0J and 1.5J. We find that ring exchange induces a quantum phase transition from a (π,π) ordered state to a (π/2,π/2) ordered state. This quantum critical point is reduced by quantum fluctuations from its mean-field value of Jr/J=2 to a value of ∼1.1. At the quantum critical point, the dynamical correlation function shows a pseudocontinuum at q values between the two competing ordering vectors.

Original language	English
Article number	054432
Journal	Physical Review B
Volume	99
Issue number	5
Number of pages	12
ISSN	2469-9950
DOIs	https://doi.org/10.1103/PhysRevB.99.054432
Publication status	Published - 27 Feb 2019

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title = "Exact diagonalization study of the Hubbard-parametrized four-spin ring exchange model on a square lattice",

abstract = "We have used exact numerical diagonalization to study the excitation spectrum and the dynamic spin correlations in the s=1/2 next-next-nearest-neighbor Heisenberg antiferromagnet on the square lattice, with additional four-spin ring exchange from higher-order terms in the Hubbard expansion. We have varied the ratio between Hubbard model parameters t/U to obtain different relative strengths of the exchange parameters, while keeping electrons localized. The Hubbard model parameters have been parametrized via an effective ring exchange coupling Jr, which have been varied between 0J and 1.5J. We find that ring exchange induces a quantum phase transition from a (π,π) ordered state to a (π/2,π/2) ordered state. This quantum critical point is reduced by quantum fluctuations from its mean-field value of Jr/J=2 to a value of ∼1.1. At the quantum critical point, the dynamical correlation function shows a pseudocontinuum at q values between the two competing ordering vectors.",

author = "Larsen, {C. B.} and R{\o}mer, {A. T.} and S. Janas and F. Treue and B. M{\o}nsted and Shaik, {N. E.} and R{\o}nnow, {H. M.} and K. Lefmann",

year = "2019",

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doi = "10.1103/PhysRevB.99.054432",

language = "English",

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T1 - Exact diagonalization study of the Hubbard-parametrized four-spin ring exchange model on a square lattice

AU - Larsen, C. B.

AU - Rømer, A. T.

AU - Janas, S.

AU - Treue, F.

AU - Mønsted, B.

AU - Shaik, N. E.

AU - Rønnow, H. M.

AU - Lefmann, K.

PY - 2019/2/27

Y1 - 2019/2/27

N2 - We have used exact numerical diagonalization to study the excitation spectrum and the dynamic spin correlations in the s=1/2 next-next-nearest-neighbor Heisenberg antiferromagnet on the square lattice, with additional four-spin ring exchange from higher-order terms in the Hubbard expansion. We have varied the ratio between Hubbard model parameters t/U to obtain different relative strengths of the exchange parameters, while keeping electrons localized. The Hubbard model parameters have been parametrized via an effective ring exchange coupling Jr, which have been varied between 0J and 1.5J. We find that ring exchange induces a quantum phase transition from a (π,π) ordered state to a (π/2,π/2) ordered state. This quantum critical point is reduced by quantum fluctuations from its mean-field value of Jr/J=2 to a value of ∼1.1. At the quantum critical point, the dynamical correlation function shows a pseudocontinuum at q values between the two competing ordering vectors.

AB - We have used exact numerical diagonalization to study the excitation spectrum and the dynamic spin correlations in the s=1/2 next-next-nearest-neighbor Heisenberg antiferromagnet on the square lattice, with additional four-spin ring exchange from higher-order terms in the Hubbard expansion. We have varied the ratio between Hubbard model parameters t/U to obtain different relative strengths of the exchange parameters, while keeping electrons localized. The Hubbard model parameters have been parametrized via an effective ring exchange coupling Jr, which have been varied between 0J and 1.5J. We find that ring exchange induces a quantum phase transition from a (π,π) ordered state to a (π/2,π/2) ordered state. This quantum critical point is reduced by quantum fluctuations from its mean-field value of Jr/J=2 to a value of ∼1.1. At the quantum critical point, the dynamical correlation function shows a pseudocontinuum at q values between the two competing ordering vectors.

U2 - 10.1103/PhysRevB.99.054432

DO - 10.1103/PhysRevB.99.054432

M3 - Journal article

SN - 2469-9950

VL - 99

JO - Physical Review B

JF - Physical Review B

IS - 5

M1 - 054432

ER -

Exact diagonalization study of the Hubbard-parametrized four-spin ring exchange model on a square lattice

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