Polaronic mechanism of Nagaoka ferromagnetism in Hubbard models
- URL: http://arxiv.org/abs/2311.09279v2
- Date: Fri, 22 Nov 2024 06:17:21 GMT
- Title: Polaronic mechanism of Nagaoka ferromagnetism in Hubbard models
- Authors: Rhine Samajdar, R. N. Bhatt,
- Abstract summary: Nagaoka-type ferromagnetism has recently enjoyed renewed attention with the advent of a variety of experimental platforms.
Here, we demonstrate a universal mechanism for Nagaoka ferromagnetism.
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- Abstract: The search for elusive Nagaoka-type ferromagnetism in the Hubbard model has recently enjoyed renewed attention with the advent of a variety of experimental platforms enabling its realization, including moir\'e materials, quantum dots, and ultracold atoms in optical lattices. Here, we demonstrate a universal mechanism for Nagaoka ferromagnetism (that applies to both bipartite and nonbipartite lattices) based on the formation of ferromagnetic polarons consisting of a dopant dressed with polarized spins. Using large-scale density-matrix renormalization group calculations, we present a comprehensive study of the ferromagnetic polaron in an electron-doped Hubbard model, establishing various polaronic properties such as its size and energetics. Moreover, we systematically probe the internal structure of the magnetic state$\unicode{x2014}$through the use of pinning fields and three-point spin-charge-spin correlation functions$\unicode{x2014}$for both the single-polaron limit and the high-density regime of interacting polarons. Our results highlight the crucial role of mobile polarons in the birth of global ferromagnetic order from local ferromagnetism and provide a unified framework to understand the development and demise of the Nagaoka-type ferromagnetic state across dopings.
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