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The spin-1/2 ferromagnetic XXZ chain is a prototypical many-body quantum model, exactly solvable via the integrable Bethe ansatz method, hosting a Tomonaga-Luttinger spin liquid. However, its clear experimental realizations remain absent. Here, we present a thorough investigation of the magnetism of the structurally disorder-free compound LuCu (OH) ₃SO₄. By conducting magnetization and electron-spin-resonance measurements on the single-crystal sample, we establish that the title compound approximates the spin-1/2 ferromagnetic XXZ chain model with a nearest-neighbor exchange strength of J₁ 65 K and an easy-plane anisotropy of 0. 994. The specific heat demonstrates a distinctive power-law behavior at low magnetic fields (with energy scales 0. 02J₁) and low temperatures (T 0. 03J₁). This behavior is consistent with the expectations of the ideal spin-1/2 ferromagnetic XXZ chain model, thereby supporting the formation of a gapless Tomonaga-Luttinger spin liquid in LuCu (OH) ₃SO₄.
Li et al. (Tue,) studied this question.
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