Cloaking Rayleigh waves via symmetrized elastic tensors
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[1] Guoliang Huang,et al. Microstructure realization of a lattice-based polar solid for arbitrary elastic waveguiding , 2023, Journal of the Mechanics and Physics of Solids.
[2] S. Guenneau,et al. Dynamic cloaking of a diamond-shaped hole in elastic plate , 2022, Applied Physics Letters.
[3] Gui-Lan Yu,et al. Inverse design of locally resonant metabarrier by deep learning with a rule-based topology dataset , 2022, Computer Methods in Applied Mechanics and Engineering.
[4] Qian Wu,et al. Omnidirectional wave polarization manipulation in isotropic polar solids , 2022, International Journal of Solids and Structures.
[5] S. Guenneau,et al. Transformation design of in-plane elastic cylindrical cloaks, concentrators and lenses , 2021, Wave Motion.
[6] K. K. Żur,et al. Wide Rayleigh waves bandgap engineered metabarriers for ground born vibration attenuation , 2021 .
[7] S. Guenneau,et al. Cloaking strategy for Love waves , 2021, Extreme Mechanics Letters.
[8] Guoliang Huang,et al. Discrete transformation elasticity: An approach to design lattice-based polar metamaterials , 2021, 2104.14471.
[9] B. Djafari-Rouhani,et al. Physics of surface vibrational resonances: pillared phononic crystals, metamaterials, and metasurfaces , 2021, Reports on progress in physics. Physical Society.
[10] R. Craster,et al. Elastic wave near-cloaking , 2020, Extreme Mechanics Letters.
[11] Ze Liu,et al. Partially Embedded Gradient Metabarrier: Broadband Shielding from Seismic Rayleigh Waves at Ultralow Frequencies , 2020 .
[12] M. Brun,et al. Control of elastic shear waves by periodic geometric transformation: cloaking, high reflectivity and anomalous resonances , 2020 .
[13] W. Matusik,et al. Physical Realization of Elastic Cloaking with a Polar Material. , 2020, Physical review letters.
[14] Guoliang Huang,et al. Polar Metamaterials: A New Outlook on Resonance for Cloaking Applications. , 2019, Physical review letters.
[15] G. Hu,et al. An asymmetric elastic metamaterial model for elastic wave cloaking , 2019, Journal of the Mechanics and Physics of Solids.
[16] A. Colombi,et al. Mitigation of seismic waves: Metabarriers and metafoundations bench tested , 2019, 1908.02056.
[17] Guoliang Huang,et al. Isotropic polar solids for conformal transformation elasticity and cloaking , 2019, Journal of the Mechanics and Physics of Solids.
[18] Z. Shi,et al. Periodic pile barriers for Rayleigh wave isolation in a poroelastic half-space , 2019, Soil Dynamics and Earthquake Engineering.
[19] Weidong Zhu,et al. Nonlinear transformation-based broadband cloaking for flexural waves in elastic thin plates , 2019, Journal of Sound and Vibration.
[20] Guoliang Huang,et al. A degenerate polar lattice for cloaking in full two-dimensional elastodynamics and statics , 2018, Proceedings of the Royal Society A.
[21] Z. Shi,et al. Surface-wave attenuation by periodic pile barriers in layered soils , 2018, Construction and Building Materials.
[22] Vasilis K. Dertimanis,et al. Hybridization of Guided Surface Acoustic Modes in Unconsolidated Granular Media by a Resonant Metasurface , 2018 .
[23] A. Marzani,et al. Control of Love waves by resonant metasurfaces , 2018, Scientific Reports.
[24] Harsha Hutridurga,et al. On Near-cloaking for Linear Elasticity , 2018, Multiscale Model. Simul..
[25] S. Guenneau,et al. Flat lens effect on seismic waves propagation in the subsoil , 2017, Scientific Reports.
[26] Jean-Jacques Marigo,et al. Conversion of Love waves in a forest of trees , 2017, Physical Review B.
[27] Pu Zhang,et al. Hyperelastic antiplane ground cloaking. , 2017, The Journal of the Acoustical Society of America.
[28] Martin Wegener,et al. Three-dimensional mechanical metamaterials with a twist , 2017, Science.
[29] Baowen Li,et al. Seismic invisibility: elastic wave cloaking via symmetrized transformation media , 2017, New Journal of Physics.
[30] Antonio Palermo,et al. Engineered metabarrier as shield from seismic surface waves , 2016, Scientific Reports.
[31] E. Tsukerman. Inverse Participation Ratios in the XX spin chain , 2016, 1611.01806.
[32] M. Wegener,et al. Scattering problems in elastodynamics , 2016, 1609.09346.
[33] Mohammad-Reza Alam,et al. Broadband cloaking of flexural waves. , 2016, Physical review. E.
[34] Davit Harutyunyan,et al. On the possible effective elasticity tensors of 2-dimensional and 3-dimensional printed materials , 2016, 1606.03305.
[35] W. Parnell,et al. Antiplane elastic wave propagation in pre-stressed periodic structures; tuning, band-gap switching and invariance , 2016 .
[36] R. Craster,et al. Forests as a natural seismic metamaterial: Rayleigh wave bandgaps induced by local resonances , 2016, Scientific Reports.
[37] F. Larsson,et al. Transformational cloaking from seismic surface waves by micropolar metamaterials with finite couple stiffness , 2015 .
[38] Mohammad-Reza Alam,et al. Cloaking in shallow-water waves via nonlinear medium transformation , 2015, Journal of Fluid Mechanics.
[39] Z. Xiang,et al. Realizing the Willis equations with pre-stresses , 2014, 1411.0663.
[40] S. Guenneau,et al. Experiments on seismic metamaterials: molding surface waves. , 2014, Physical review letters.
[41] M. Brun,et al. Transformation elastodynamics and cloaking for flexural waves , 2014, 1401.7579.
[42] William J. Parnell,et al. Antiplane elastic wave cloaking using metamaterials, homogenization and hyperelasticity , 2013 .
[43] Zhifei Shi,et al. Attenuation zones of periodic pile barriers and its application in vibration reduction for plane waves , 2013 .
[44] Robert V. Kohn,et al. A Variational Perspective on Cloaking by Anomalous Localized Resonance , 2012, Communications in Mathematical Physics.
[45] A. Norris,et al. Hyperelastic cloaking theory: transformation elasticity with pre-stressed solids , 2012, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[46] M. Wegener,et al. On the feasibility of pentamode mechanical metamaterials , 2012, 1203.1481.
[47] William J. Parnell,et al. Nonlinear pre-stress for cloaking from antiplane elastic waves , 2012, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[48] Martin Wegener,et al. Experiments on elastic cloaking in thin plates. , 2012, Physical review letters.
[49] S. Guenneau,et al. Flat lens for Lamb waves focusing , 2011 .
[50] A. Norris,et al. Elastic cloaking theory , 2011, 1103.6045.
[51] W. A. Atkinson,et al. Generalized Inverse Participation Ratio as a Possible Measure of Localization for Interacting Systems , 2010, 1011.0659.
[52] T. Garel,et al. Anderson localization of phonons in dimension d = 1 , 2 , 3 : Finite-size properties of the inverse participation ratios of eigenstates , 2010, 1003.5988.
[53] Mohamed Farhat,et al. Ultrabroadband elastic cloaking in thin plates. , 2009, Physical review letters.
[54] Alexander B. Movchan,et al. Achieving control of in-plane elastic waves , 2008, 0812.0912.
[55] J. Willis,et al. On cloaking for elasticity and physical equations with a transformation invariant form , 2006 .
[56] Evers,et al. Fluctuations of the inverse participation ratio at the anderson transition , 2000, Physical review letters.
[57] Franz Wegner,et al. Inverse participation ratio in 2+ε dimensions , 1980 .
[58] Zhibao Cheng,et al. Vibration mitigation in saturated soil by periodic pile barriers , 2020 .