Ultrasound visualization using polymer dispersed liquid crystal sensors

The acousto-optic effect in liquid crystals (LCs) has previously been exploited to build large area acoustic sensors for visualising ultrasound fields, opening up the field of acoustography. There is an opportunity to simplify this technique and open new application areas by employing polymer disper...

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Bibliographic Details
Main Authors: Edwards, R. S., Trushkevych, O., Eriksson, T. J. R., Ramadas, S. N., Dixon, S.
Format: Conference Proceeding
Language:English
Subjects:
Acoustic propagation
Acousto-optics
Liquid crystals
Nondestructive testing
Polymers
Sensors
Surface acoustic waves
Thin films
Ultrasonic imaging
Visualization
Wave propagation
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Summary:The acousto-optic effect in liquid crystals (LCs) has previously been exploited to build large area acoustic sensors for visualising ultrasound fields, opening up the field of acoustography. There is an opportunity to simplify this technique and open new application areas by employing polymer dispersed LC (PDLC) thin films instead of aligned LC layers. In PDLCs, the normally opaque film becomes transparent under the influence of an acoustic field (e.g. when surface acoustic waves are propagating in the material under the film). This is called acoustic clearing and is visible by eye. There is potential for producing ultrasonic sensors which can be ‘painted on’ to a component, giving direct visualisation of the ultrasonic field without requiring scanning. We demonstrate the effect by using PDLC films to characterise a resonant mode of a flexural air-coupled transducer. Visualisation was quick, with a switching time of a few seconds. The effect shows promise for ultrasound sensing applications for transducer characterisation and NDE.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.4974562