Wertheim TPT1 is rendered exact in 1D for divalent patchy rods via exact density-unbonded fraction relations and bonding free energy, revealing monotonic-to-oscillatory pair-correlation decay separated by a Fisher-Widom line plus Widom and ECO lines that vanish in the sticky limit.
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Pith papers citing it
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cond-mat.soft 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Transverse-resolved RDFs in quasi-1D confined hard spheres can be governed by different leading poles than the global RDF, yielding distinct correlation lengths and frequencies that depend on transverse configuration and density.
citing papers explorer
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Thermodynamic and structural behavior of one-dimensional divalent patchy hard rods: Wertheim's first-order thermodynamic perturbation theory versus exact results
Wertheim TPT1 is rendered exact in 1D for divalent patchy rods via exact density-unbonded fraction relations and bonding free energy, revealing monotonic-to-oscillatory pair-correlation decay separated by a Fisher-Widom line plus Widom and ECO lines that vanish in the sticky limit.
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On the correlation lengths of confined spheres in a cylindrical pore
Transverse-resolved RDFs in quasi-1D confined hard spheres can be governed by different leading poles than the global RDF, yielding distinct correlation lengths and frequencies that depend on transverse configuration and density.