Owen Bradley scite author profile

Residual entropy is a key feature associated with emergence in many-body systems. From a variety of frustrated magnets to the onset of spin-charge separation in Hubbard models and fermion-Z2-flux variables in Kitaev models, the freezing of one set of degrees of freedom and the establishment of local constraints are marked by a plateau in entropy as a function of temperature. Yet, with the exception of the rare-earth pyrochlore family of spin-ice materials, evidence for such plateaus is rarely seen in real materials, raising questions about their robustness. Following recent experimental findings of the absence of such plateaus in the triangular-lattice Ising antiferromagnet (TIAF) TmMgGaO4 by Li et al, we explore in detail the existence and rounding of entropy plateaus in TIAF. We use a transfer matrix method to numerically calculate the properties of the system at different temperatures and magnetic fields, with further neighbor interactions and disorder. We find that temperature windows of entropy plateaus exist only when second-neighbor interactions are no more than a couple of percent of the nearest-neighbor ones, and they are also easily destroyed by disorder in the nearest-neighbor exchange variable, thereby explaining the challenge in observing such effects.

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Dynamical tuning of the chemical potential to achieve a target particle number in grand canonical Monte Carlo simulations

Miles

Cohen-Stead

Bradley

et al. 2022

Phys. Rev. E

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Owen Bradley

Superconductivity and charge density wave order in the two-dimensional Holstein model

Fast and scalable quantum Monte Carlo simulations of electron-phonon models

Instabilities of spin-1 Kitaev spin liquid phase in presence of single-ion anisotropies

Robustness of entropy plateaus: A case study of triangular Ising antiferromagnets

Dynamical tuning of the chemical potential to achieve a target particle number in grand canonical Monte Carlo simulations

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