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1.
Article in English | MEDLINE | ID: mdl-26651727

ABSTRACT

We present a previously unrecognized effect of sound waves on gap-junction-based intercellular signaling such as in biological tissues composed of endothelial cells. We suggest that sound irradiation may, through temporal and spatial modulation of cell-to-cell conductance, create intercellular calcium waves with unidirectional signal propagation associated with nonconventional topologies. Nonreciprocity in calcium wave propagation induced by sound wave irradiation is demonstrated in the case of a linear and a nonlinear reaction-diffusion model. This demonstration should be applicable to other types of gap-junction-based intercellular signals, and it is thought that it should be of help in interpreting a broad range of biological phenomena associated with the beneficial therapeutic effects of sound irradiation and possibly the harmful effects of sound waves on health.


Subject(s)
Acoustics , Calcium Signaling , Gap Junctions/metabolism , Models, Biological , Sound , Diffusion , Spatio-Temporal Analysis
2.
J Acoust Soc Am ; 130(4): 1919-25, 2011 Oct.
Article in English | MEDLINE | ID: mdl-21973346

ABSTRACT

A phononic crystal (PC) consisting of a square array of cylindrical polyvinylchloride inclusions in air is used to construct a variety of acoustic logic gates. In a certain range of operating frequencies, the PC band structure shows square-like equi-frequency contours centered off the gamma point. This attribute allows for the realization of non-collinear wave and group velocity vectors in the PC wave vector space. This feature can be utilized to control with great precision, the relative phase between propagating acoustic waves in the PC. By altering the incidence angle of the impinging acoustic beams or varying the PC thickness, interferences occur between acoustic wave pairs. It is recognized that information can be encoded with this mechanism (e.g., wave amplitudes/interference patterns) and accordingly to construct a series of logic gates emulating Boolean functions. The NAND, XOR, and NOT gates are demonstrated with finite-difference time-domain simulations of acoustic waves impinging upon the PC.


Subject(s)
Acoustics/instrumentation , Models, Theoretical , Polyvinyl Chloride/chemistry , Signal Processing, Computer-Assisted , Sound , Computer Simulation , Crystallization , Motion , Numerical Analysis, Computer-Assisted , Time Factors
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