Representative Papers & Presentations - Chris Layman, Senior Associate
Naify, C.J., Martin, T.P., Layman, C.N., Calvo, D.C., and Orris, G.J. Underwater acoustic omnidirectional absorber.
Appl. Phys. Lett. 104,073505 (2014)
Layman, C.N., et al. Highly anisotropic elements for acoustic pentamode applications. Phys. Rev. Lett. 111, 024302 (2013)
Naify, C.J., Layman, C.N., et al. Variable index transmission line metamaterial as an acoustic leaky-wave antenna.
Appl. Phys. Lett. 102, 203508 (2013)
Calvo, D., Thangawng, A. and Layman, C.N. Low-frequency resonance of an oblate spheroidal cavity in a soft elastic medium.
J. Acoust. Soc. Am. 132 EL1 (2012)
Martin, T.P., Layman, C.N., et al. Elastic shells with high-contrast material properties as acoustic metamaterial components.
Phys. Rev. B 85 161103(R) (2012)
Layman, C.N., et al. Designing acoustic transformation devices using fluid homogenization of an elastic substructure.
Appl. Phys. Lett. 99 163503 (2011)
Sou, I.M., Allen, J.S., Layman, C.N., Ray, C., et al. A synchronized particle image velocimetry and infrared thermography technique applied to an acoustic streaming flow. Exp. Fluids. 51, 5 (2011)
Layman, C.N., et al. Characterization of acoustic streaming and heating using synchronized infrared thermography and particle image velocimetry. Ultrason. Sonochem. 18,1258-1261 (2011)
Cai M., Sou, I.M., Layman C.N., Bingham B. Characterization of the acoustic signature of a small remotely operated vehicle for detection. Proceedings of OCEANS 1, (2010)
Layman, C.N., et al. The interaction of ultrasound with particulate composites. J. Acoust. Soc. Am. 119, 1449 (2006)
Wu, J., Layman, C.N., Murthy, N.S., and Yang, R-B. Determine mechanical properties of particulate composite using ultrasound spectroscopy. Ultrasonics 44, e793-e800 (2006)
Layman, C.N. and Wu, J. Theoretical study in applications of doublet mechanics to detect tissue pathological changes in elastic properties using high frequency ultrasound. J. Acoust. Soc. Am. 116, 1244 (2004)
Wu, J., Layman, C.N. and Liu, J. Wave equations, dispersion relations, and van Hove singularities for applications of doublet mechanics to ultrasound propagation in bio and nanomaterials. J. Acoust. Soc. Am. 115, 893 (2004)