Audrey A. Watkins scite author profile

Audrey A. Watkins

5Publications

6Citation Statements Received

58Citation Statements Given

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143

Affiliations

University of Connecticut, Staffordshire University

Publications

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Demultiplexing Infrasound Phonons With Tunable Magnetic Lattices

Watkins

Bilal

2020

Front. Mater.

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Controlling infrasound signals is crucial to many processes ranging from predicting atmospheric events and seismic activities to sensing nuclear detonations. These waves can be manipulated through phononic crystals and acoustic metamaterials. However, at such ultra-low frequencies, the size (usually on the order of meters) and the mass (usually on the order of many kilograms) of these materials can hinder its potential applications in the infrasonic domain. Here, we utilize tunable lattices of repelling magnets to guide and sort infrasound waves into different channels based on their frequencies. We construct our lattices by confining meta-atoms (free-floating macroscopic disks with embedded magnets) within a magnetic boundary. By changing the confining boundary, we control the meta-atoms’ spacing and therefore the intensity of their coupling potentials and wave propagation characteristics. As a demonstration of principle, we present the first experimental realization of an infrasound phonon demultiplexer (i.e., guiding ultra-low frequency waves into different channels based on their frequencies). The realized platform can be utilized to manipulate ultra-low frequency waves, within a relatively small volume, while utilizing negligible mass. In addition, the self-assembly nature of the meta-atoms can be key in creating re-programmable materials with exceptional nonlinear properties.

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Exploiting localized transition waves to tune sound propagation in soft materials

Watkins

Eichelberg²,

Bilal³

2021

Phys. Rev. B

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Metamaterials with Reprogrammable Reciprocity

2022

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Touch Screen Using Strain Gauges

Carrasco

Watkins

1987

International Journal of Electrical Engineering & Education

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Classification of emerging patterns in self-assembled two-dimensional magnetic lattices

2021

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Audrey A. Watkins

Demultiplexing Infrasound Phonons With Tunable Magnetic Lattices

Exploiting localized transition waves to tune sound propagation in soft materials

Metamaterials with Reprogrammable Reciprocity

Touch Screen Using Strain Gauges

Classification of emerging patterns in self-assembled two-dimensional magnetic lattices

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