Electro-osmotic flow within multilayer microfluidic structures and an algebraic framework for hydrodynamic cloaking and shielding
DOI10.1137/24M1674078MaRDI QIDQ6660867
Hongyu Liu, Lingzheng Kong, Liyan Zhu, Youjun Deng
Publication date: 10 January 2025
Published in: SIAM Journal on Applied Mathematics (Search for Journal in Brave)
electro-osmotic flowhydrodynamic shieldinghydrodynamic cloakinghydrodynamic generalized polarization tensorsmultilayer microfluidic structures
PDEs in connection with fluid mechanics (35Q35) Laplace operator, Helmholtz equation (reduced wave equation), Poisson equation (35J05) Integral representations, integral operators, integral equations methods in two dimensions (31A10) Other free boundary flows; Hele-Shaw flows (76D27)
Cites Work
- Title not available (Why is that?)
- Full and partial cloaking in electromagnetic scattering
- Polarization and moment tensors. With applications to inverse problems and effective medium theory
- Analysis of plasmon resonance on smooth domains using spectral properties of the Neumann-Poincaré operator
- On nonuniqueness for Calderón's inverse problem
- On novel elastic structures inducing polariton resonances with finite frequencies and cloaking due to anomalous localized resonances
- Two-dimensional elastic scattering coefficients and enhancement of nearly elastic cloaking
- Boundary layer techniques for solving the Helmholtz equation in the presence of small inhomogeneities
- Enhancement of near-cloaking. II: The Helmholtz equation
- Enhancement of near cloaking using generalized polarization tensors vanishing structures. I: The conductivity problem
- Spectral theory of a Neumann-Poincaré-type operator and analysis of cloaking due to anomalous localized resonance
- Three-dimensional elastic scattering coefficients and enhancement of the elastic near cloaking
- Spectral properties of Neumann-Poincaré operator and anomalous localized resonance in elasticity beyond quasi-static limit
- On spectral properties of Neuman-Poincaré operator and plasmonic resonances in 3D elastostatics
- Nearly cloaking the full Maxwell equations: cloaking active contents with general conducting layers
- On Anomalous Localized Resonance for the Elastostatic System
- Optical Conformal Mapping
- Controlling Electromagnetic Fields
- Cloaking via change of variables for the Helmholtz equation
- Cloaking Devices, Electromagnetic Wormholes, and Transformation Optics
- Virtual reshaping and invisibility in obstacle scattering
- Lubrication theory for electro-osmotic flow in a microfluidic channel of slowly varying cross-section and wall charge
- On regularized full- and partial-cloaks in acoustic scattering
- On anomalous localized resonance and plasmonic cloaking beyond the quasi-static limit
- Asymptotic behavior of spectral of Neumann‐Poincaré operator in Helmholtz system
- Cloaking via Mapping for the Heat Equation
- Cloaking Due to Anomalous Localized Resonance in Plasmonic Structures of Confocal Ellipses
- Enhancement of Near Cloaking for the Full Maxwell Equations
- Spectral Theory of Localized Resonances and Applications
- On plasmon modes in multi‐layer structures
- A Mathematical Theory of Microscale Hydrodynamic Cloaking and Shielding by Electro-Osmosis
- Enlargement of the localized resonant band gap by using multi-layer structures
- Elastostatics within multi-layer metamaterial structures and an algebraic framework for polariton resonances
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