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• Coarse-grained local available potential energy physics.flu-dyn · 2026-05-15 · unverdicted · none · ref 54

  A coarse-graining method is introduced to derive multi-scale evolution equations for local available potential energy, including cross-scale fluxes, with an example application to a Kelvin-Helmholtz instability simulation.

• Rare transitions between collective states in an active fluid via a weakly nonlinear reduction physics.flu-dyn · 2026-05-10 · unverdicted · none · ref 20

  Weakly nonlinear reduction with analytically derived noise terms reveals rare transitions between coexisting periodic orbits in an active rod suspension, with statistics matching full nonlinear simulations at lower cost.

• On the role of inertia and self-sustaining mechanism in two-dimensional elasto-inertial turbulence physics.flu-dyn · 2026-04-23 · unverdicted · none · ref 78

  In 2D elasto-inertial turbulence, inertia enhances fluctuations and drives wallward migration of structures with elastic shear stress peaks scaling as y+ ∝ Re_τ^{1/2} and energy conversion peaks as y+ ∝ Re_τ^{0.1}, while PDFs collapse to reveal robust self-similarity.

• Matrix structure and convergence behavior of the matched eigenfunction method for computing heave wave forces on generalized concentric bodies physics.ao-ph · 2026-05-19 · unverdicted · none · ref 59

  MEEM computes hydrodynamic coefficients for slanted concentric bodies within 5% of Capytaine while reaching 2% convergence an order of magnitude faster using matrices two orders of magnitude smaller.

• Drag reduction regimes in air lubrication physics.flu-dyn · 2026-04-19 · unverdicted · none · ref 20

  Experimental characterization identifies three air lubrication regimes and proposes a scaling for the critical air flow rate marking the transition to the air layer regime with up to 60% drag reduction.