Publication list

2019

  1. Gao N., Wei Z., Hou H., Krushynska A.O. "Design and experimental investigation of V-folded beams with acoustic black hole indentations" J. Acoust. Soc. Am. 145(1), EL79-EL83, 2019 (link).

  2. Krushynska A.O. "Between science and art: thin sound absorbers inspired by Slavic ornaments", Front. Mat.: Rising Starts collection, vol. 6, paper 182 (link).

  3. Gliozzi A.S., Miniaci M., Krushynska A.O., Morvan B., Scalerandi M., Pugno N.M., Bosia F. "A frequency-preserving and time-invariant metamaterial-based nonlinear acoustic diode", Sci. Rep. 9: 9560, 2019 (link).

  4. Krushynska A.O. "Thin sound absorbers with coiled and coupled resonators", Proceedings of the Congress "InterNoise2019", Madrid, Spain, June 16-19, 2019 (link).

  5. Krushynska A.O. "Waves in elastic and dissipative acoustic metamaterials", Report of the Mini-Workshop "Mathematical Aspects of Nonlinear Wave Propagation in Solid Mechanics", April 2019 (link).

  6. Krushynska A.O., Amendola A., Bosia F., Galich P., Daraio C., Rudykh S., Fraternali F., Pugno N.M. "Dynamics of Twisted and Rotation-Symmetric Metamaterials", Phononics 2019: 5th International Conference on Phononic Crystals/Metamaterials, Phonon Transport and Topological Phononics, Tucson, AZ, U.S.A., June 3-7, 2019 (link).

  7. Amendola A., Krushynska A., De Piano M., Daraio C., Pugno N.M., Fraternali F. "Mechanical modeling of the bandgap response of tensegrity metamaterials", AIP Conference Proceedings, 2116, 260010 (2019); https://doi.org/10.1063/1.5114261.

  8. Karami Mohammadi N., Galich P., Krushynska A.O., Rudykh S. "Soft magnetoactive laminates: large deformations, transverse elastic waves and band gaps tunability by a magnetic field", J. Appl. Mech. 86 (11), 111001 (2019); https://doi.org/10.1115/1.4044497 (link).



2018

  1. Krushynska A.O., Bosia F., Pugno N.M. "Labyrinthine acoustic metamaterials with space-coiling channels for low-frequency sound control", Acta Acust. united Ac. 104, 200-210, 2018 (link).

  2. Krushynska A.O., Bosia F., Pugno N.M. "Fractal and bio-inspired labyrinthine acoustic metamaterials" , Journal of the Acoustical Society of America 143 (3), 1714, 2018 (link).

  3. Amendola A., Krushynska A.O., Daraio C., Pugno N.M., Fraternali F. “Tuning frequency band gaps of tensegrity metamaterials with local and global prestress”, Int. J. Solids Struct., 155, 47-56 (link).

  4. Gliozzi A.S., Miniaci M., Krushynska A.O., Morvan B., Scalerandi M., Pugno N.M., Bosia F. “A frequency-preserving passive metamaterial-based nonlinear acoustic diode”, (submitted).

  5. Krushynska A.O., Amendola A., Bosia F., Daraio C., Pugno N.M., Fraternali F. "Tunable extremely wide sub-wavelength band gaps in accordion-like metamaterials", 12th International Congress on Engineered Materials Platforms for Novel Wave Phenomena (Metamaterials): Espoo, Finland, p. 237-239.

  6. Krushynska A.O., Amendola A., Bosia F., Daraio C., Pugno N.M., Fraternali F. "Accordion-like metamaterials with tunable ultra-wide low-frequency band gaps", New J. Phys. 20, 073051 (link).

  7. Miniaci M., Krushynska A.O., Gliozzi A.S., Kherraz N., Bosia F., Pugno N.M. "Design and fabrication of bio-inspired hierarchical dissipative elastic metamaterials", Phys. Rev. Applied 10(2), 024012 (link).

  8. Bosia F., Krushynska A.O., Miniaci M., Morvan B., Pugno N.M. "Editorial: Advances in Mechanical Metamaterials", Frontiers Mater. 5, 56 (link).

  9. Krushynska A.O., Galich P., Bosia F., Pugno N.M., Rudykh S. "Hybrid metamaterials combining pentamode lattices and phononic plates", Appl. Phys. Lett. 113, 201901 (link).

  10. Krushynska A.O., Romero-Garcia V., Bosia F., Pugno N.M., Groby J.-P. "Perfect absorption and total reflection in space-coiled sub-wavelength channels", 12th International Congress on Engineered Materials Platforms for Novel Wave Phenomena (Metamaterials): Espoo, Finland, p.240-242.



2017

  1. Krushynska A., Bosia F., Miniaci M., Pugno N.M. “Spider-web structured labyrinthine acoustic metamaterials for low-frequency sound control”, New J. Phys. 19, 105001, 2017 (link).

  2. Miniaci M., Krushynska A., Bosia F., Pugno N. “Bio-inspired hierarchical dissipative metamaterials”, (submitted); arXiv:1606.03596

  3. Lewinska M., Kouznetsova V.G., van Dommelen J., Krushynska A., Geers M.G.D. "The attenuation performance of locally resonant acoustic metamaterials based on generalized viscoelastic modelling", Int. J. Solids Struct. 126-127C: 163-174, 2017 (link).

  4. Miniaci M., Gliozzi A.S., Morvan B., Krushynska A., Bosia F., Scalerandi M., Pugno N.M. “Proof of concept for an ultrasensitive meta-device to detect and localize nonlinear elastic sources”, Phys. Rev. Lett. 118: 214301, 2017 (link).

  5. Krushynska A., Miniaci M., Bosia F., Pugno N. “Coupling local resonance with Bragg band gaps in single-phase mechanical metamaterials”, Extr. Mech. Lett. 12: pp. 30-36, 2017. (link)

  6. Bosia F., Miniaci M., Krushynska A., Pugno N.M. “Large scale elastic metamaterials for earthquake protection”, 11th International Congress on Engineered Materials Platforms for Novel Wave Phenomena (Metamaterials): Marceille, France, p.747-749, 2017 (pdf).

  7. Krushynska A.O., Miniaci M., Kouznetsova V.G., Geers M.G.D. “Multi-layered inclusions in locally resonant metamaterials: two-dimensional vs. three-dimensional modeling” ASME J. Vibr. Acoust. 139(2): 024501, 2017. (link)

  8. Krushynska A.O., Bosia F., Miniaci M., Gliozzi A.S., Scalerandi M., Pugno N.M. "Dissipative elastic metamaterials", 11th International Congress on Engineered Materials Platforms for Novel Wave Phenomena (Metamaterials): Marceille, France, p.169-171, 2017 (pdf).

  9. Miniaci M., Krushynska A.O., Bosia F., Morvan B., Pugno N.M. "Hierarchical bio-inspired dissipative metamaterials for low-frequency attenuation", 11th International Congress on Engineered Materials Platforms for Novel Wave Phenomena (Metamaterials): Marceille, France, p.771-773, 2017 (pdf).

  10. Krushynska A.O., Bosia F., Miniaci M., Pugno N.M. "Fractal and spider-web inspired labyrinthine acoustic metamaterials", 11th International Congress on Engineered Materials Platforms for Novel Wave Phenomena (Metamaterials): Marceille, France, p.780-782, 2017 (pdf).



2016

  1. Miniaci M., Krushynska A.O., Bosia F., Pugno N.M. “Large scale mechanical metamaterials as seismic shields”, New J. Phys. 18: 083041, 2016. (link)

  2. Miniaci M., Krushynska A.O., Movchan A.B., Bosia F., Pugno N.M. “Spider web-inspired acoustic metamaterials”, Appl. Phys. Lett. 109: 071905, 2016. (link)

  3. Miniaci M., Krushynska A.O., Bosia F., Gliozzi A., Scalerandi M., Morvan B., Pugno N., “Nonlinear damage detection and localization via an innovative metamaterial-based sensor”, J. Acoust. Soc. Am., 139: 2013, 2016. (link)

  4. Krushynska A.O., Kouznetsova V.G., Geers M.G.D. “Visco-elastic effects on wave dispersion in three-phase acoustic metamaterials”, J. Mech. Phys. Solids, 96: 29-47, 2016. (link)



2014

  1. Krushynska A.O., Kouznetsova V.G., Geers M.G.D. “Towards optimal design of locally resonant acoustic metamaterials”, J. Mech. Phys. Solids, 71: 179-196, 2014. (link)



2011

  1. Krushynska A.A., Meleshko V.V., Ma C.-C., Huang Y.-H. “Mode excitation efficiency for contour vibrations of piezoelectric resonators”, IEEE Trans. Ultrasonics, Ferroelectrics, and Frequency Control, 58: 2222-2238, 2011. (link)

  2. Krushynska A.A. “Flexural edge waves in semi-infinite elastic plates”, J. Sound Vibr. 330: 1964-1976, 2011. (link)

  3. Krushynska A.A., Meleshko V.V. “Normal waves in elastic bars of rectangular cross section”, J. Acoust. Soc. Am., 129: 1324-1335, 2011. (link)