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arxiv: 2503.14643 · v1 · pith:GXJC7UZ2 · submitted 2025-03-18 · cond-mat.str-el

Confined and deconfined spinon excitations in the rectangular-lattice quantum antiferromagnet

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classification cond-mat.str-el
keywords quantumspinonsantiferromagnetconfineddeconfinedexcitationsfunctionheisenberg
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Fractionalization remains one of the most fascinating manifestations of strong interactions in quantum many-body systems. In quantum magnetism, the existence of spinons -- collective magnetic excitations that behave as quasiparticles with fractional quantum numbers -- is proven in spin chains, but the criteria for their appearance in higher dimensions remain disputed. Motivated by experiments reporting the observation of spinons at high energies in the square-lattice Heisenberg antiferromagnet, we adopt the approach of extrapolating from where spinons are well defined. We study the dynamical properties of a Gutzwiller-projected wave function, the staggered-flux state, on a rectangular spin-1/2 Heisenberg lattice as a function of the spatial coupling ratio, $\gamma = J_y/J_x$. By studying the spectrum and the spinon separation distribution we show how, as the system evolves from one-dimensional (1D) towards 2D, the spinons become progressively more confined over most of reciprocal space, but remain deconfined at specific wave vectors.

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