Minling Li scite author profile

In this paper, we investigate the optimal decay rate for the higher order spatial derivative of global solution to the compressible Navier-Stokes (CNS) equations with or without potential force in three-dimensional whole space. First of all, it has been shown in [13] that the N -th order spatial derivative of global small solution of the CNS equations without potential force tends to zero with the L 2 −rate (1 + t) −(s+N−1) when the initial perturbation around the constant equilibrium state belongs to H N (R 3 ) ∩ Ḣ−s (R 3 )(N ≥ 3 and s ∈ [0, 3 2 )). Thus, our first result improves this decay rate to (1 + t) −(s+N) . Secondly, we establish the optimal decay rate for the global small solution of the CNS equations with potential force as time tends to infinity. These decay rates for the solution itself and its spatial derivatives are really optimal since the upper bounds of decay rates coincide with the lower ones.

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Green in situ immobilisation of gold nanoparticles on bacterial nanocellulose membranes using Tannic acid and its detection of Fe3+

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Liu

et al. 2023

Colloids and Surfaces B: Biointerfaces

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Minling Li

Non-existence of global classical solutions to barotropic compressible Navier-Stokes equations with degenerate viscosity and vacuum

Global Well-posedness for the Three-Dimensional Generalized Phan–Thien–Tanner Model in Critical Besov Spaces

Ratiometric SERS quantitative analysis of tyrosinase activity based on gold-gold hybrid nanoparticles with Prussian blue as an internal standard

Optimal decay of compressible Navier-Stokes equations with or without potential force

Green in situ immobilisation of gold nanoparticles on bacterial nanocellulose membranes using Tannic acid and its detection of Fe3+

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