Blume–Capel Model in D=1 With Long-Range Interactions: Giant Reentrance in the Finite-Temperature Tricritical Phase Diagrams
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Abstract
The Blume–Capel model in one dimension with long-range power-law interactions is studied by renormalization-group theory. A series of finite-temperature tricritical phase diagrams is found, as a function of the power-law exponent of the power-law interactions. These calculated phase diagrams exhibit a giant reentrance in the form disorder-order–disorder as temperature is lowered. The first-order transition takes over the entire phase boundary at longest-range interactions, as a near-equivalent-neighbor regime is approached. © 2026 Elsevier B.V.
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Blume–Capel Model, Finite-Temperature Tricritical Phase Diagram, Giant Phase Reentrance, Long-Range Interactions, Niemeyer–Van Leeuwen Renormalization Group, Reverse-Temperature Phase Transitions, Finite-Temperature Tricitical Phase Diagram, Niemeyer-van Leeuwen Renormalization Group, Blume-Capel Model
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