Quantum and classical phases of the pyrochlore Heisenberg model with competing interactions

Yasir Iqbal; Tobias Müller; Pratyay Ghosh; Michel J.P. Gingras; Harald O. Jeschke; Stephan Rachel; Johannes Reuther; Ronny Thomale

Quantum and classical phases of the pyrochlore Heisenberg model with competing interactions

Yasir Iqbal, Tobias Müller, Pratyay Ghosh, Michel J.P. Gingras, Harald O. Jeschke, Stephan Rachel, Johannes Reuther, Ronny Thomale

Research Institute for Interdisciplinary Science

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

Abstract

We investigate the quantum Heisenberg model on the pyrochlore lattice for a generic spin S in the presence of nearest-neighbor J1 and second-nearest-neighbor J2 exchange interactions. By employing the pseudofermion functional renormalization group method, we find, for S = 1/2 and S = 1, an extended quantum-spin-liquid phase centered around J2 = 0, which is shown to be robust against the introduction of breathing anisotropy. The effects of temperature, quantum fluctuations, breathing anisotropies, and a J2 coupling on the nature of the scattering profile, and the pinch points, in particular, are studied. For the magnetic phases of the J1-J2 model, quantum fluctuations are shown to renormalize phase boundaries compared to the classical model and to modify the ordering wave vectors of spiral magnetic states, while no new magnetic orders are stabilized.

Original language	English
Journal	Unknown Journal
Publication status	Published - Feb 26 2018

ASJC Scopus subject areas

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title = "Quantum and classical phases of the pyrochlore Heisenberg model with competing interactions",

abstract = "We investigate the quantum Heisenberg model on the pyrochlore lattice for a generic spin S in the presence of nearest-neighbor J1 and second-nearest-neighbor J2 exchange interactions. By employing the pseudofermion functional renormalization group method, we find, for S = 1/2 and S = 1, an extended quantum-spin-liquid phase centered around J2 = 0, which is shown to be robust against the introduction of breathing anisotropy. The effects of temperature, quantum fluctuations, breathing anisotropies, and a J2 coupling on the nature of the scattering profile, and the pinch points, in particular, are studied. For the magnetic phases of the J1-J2 model, quantum fluctuations are shown to renormalize phase boundaries compared to the classical model and to modify the ordering wave vectors of spiral magnetic states, while no new magnetic orders are stabilized.",

author = "Yasir Iqbal and Tobias M{\"u}ller and Pratyay Ghosh and Gingras, {Michel J.P.} and Jeschke, {Harald O.} and Stephan Rachel and Johannes Reuther and Ronny Thomale",

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T1 - Quantum and classical phases of the pyrochlore Heisenberg model with competing interactions

AU - Iqbal, Yasir

AU - Müller, Tobias

AU - Ghosh, Pratyay

AU - Gingras, Michel J.P.

AU - Jeschke, Harald O.

AU - Rachel, Stephan

AU - Reuther, Johannes

AU - Thomale, Ronny

PY - 2018/2/26

Y1 - 2018/2/26

N2 - We investigate the quantum Heisenberg model on the pyrochlore lattice for a generic spin S in the presence of nearest-neighbor J1 and second-nearest-neighbor J2 exchange interactions. By employing the pseudofermion functional renormalization group method, we find, for S = 1/2 and S = 1, an extended quantum-spin-liquid phase centered around J2 = 0, which is shown to be robust against the introduction of breathing anisotropy. The effects of temperature, quantum fluctuations, breathing anisotropies, and a J2 coupling on the nature of the scattering profile, and the pinch points, in particular, are studied. For the magnetic phases of the J1-J2 model, quantum fluctuations are shown to renormalize phase boundaries compared to the classical model and to modify the ordering wave vectors of spiral magnetic states, while no new magnetic orders are stabilized.

AB - We investigate the quantum Heisenberg model on the pyrochlore lattice for a generic spin S in the presence of nearest-neighbor J1 and second-nearest-neighbor J2 exchange interactions. By employing the pseudofermion functional renormalization group method, we find, for S = 1/2 and S = 1, an extended quantum-spin-liquid phase centered around J2 = 0, which is shown to be robust against the introduction of breathing anisotropy. The effects of temperature, quantum fluctuations, breathing anisotropies, and a J2 coupling on the nature of the scattering profile, and the pinch points, in particular, are studied. For the magnetic phases of the J1-J2 model, quantum fluctuations are shown to renormalize phase boundaries compared to the classical model and to modify the ordering wave vectors of spiral magnetic states, while no new magnetic orders are stabilized.

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