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· 2025 · arXiv 2405.11023

3 Pith papers cite this work. Polarity classification is still indexing.

3 Pith papers citing it
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citation-role summary

method 1

citation-polarity summary

use method 1

fields

hep-th 2 cond-mat.soft 1

years

2026 1 2025 2

verdicts

UNVERDICTED 2 CONDITIONAL 1

roles

method 1

polarities

use method 1

representative citing papers

All-order fluctuating hydrodynamics of the SYK lattice

hep-th · 2026-04-20 · conditional · novelty 8.0

Derives the all-order fluctuating hydrodynamics effective action and transport coefficients for the SYK lattice from its microscopic pseudo-Goldstone boson action.

Linear response beyond hydrodynamic poles

hep-th · 2025-12-22 · unverdicted · novelty 7.0

Constructs a derivative expansion for linear response that matches multi-pole correlators while preserving hydrostaticity, then applies it to D3/D5 probe brane charge fluctuations to study quasihydrodynamic transport at large density.

On the temperature of an active nematic

cond-mat.soft · 2025-06-25 · unverdicted · novelty 5.0

Active nematics show activity-independent linearized temperature correlations in homogeneous states but develop inhomogeneous temperature profiles under confinement during spontaneous flow transitions.

citing papers explorer

Showing 3 of 3 citing papers.

  • All-order fluctuating hydrodynamics of the SYK lattice hep-th · 2026-04-20 · conditional · none · ref 95

    Derives the all-order fluctuating hydrodynamics effective action and transport coefficients for the SYK lattice from its microscopic pseudo-Goldstone boson action.

  • Linear response beyond hydrodynamic poles hep-th · 2025-12-22 · unverdicted · none · ref 22

    Constructs a derivative expansion for linear response that matches multi-pole correlators while preserving hydrostaticity, then applies it to D3/D5 probe brane charge fluctuations to study quasihydrodynamic transport at large density.

  • On the temperature of an active nematic cond-mat.soft · 2025-06-25 · unverdicted · none · ref 31

    Active nematics show activity-independent linearized temperature correlations in homogeneous states but develop inhomogeneous temperature profiles under confinement during spontaneous flow transitions.