Title :
Optical beamforming for ultrasonic phased arrays
Author_Institution :
Centre for Res. & Educ. in Opt. & Lasers, Central Florida Univ., Orlando, FL
fDate :
30 Oct-2 Nov 1995
Abstract :
This paper describes potentially low cost, lightweight, and compact optical beamforming techniques for ultrasonic phased arrays. The use of a pair of tiny stamp-size low cost nematic liquid crystal (NLC) 2-D optical array devices for the transducer control sites allows compact, low control power beamforming for large (i.e., >128 element) 2-D transducer arrays. 8eing able to control many elements (e.g. 512) in a 2-D format leads to higher resolution ultrasonic detection that can be very useful in certain imaging applications such as tumor detection in the medical profession and tiny crack detection in machine parts inspection. The optical method also provides a high degree of carrier tunability. Thus, compared to an all-electronic controller, the proposed optical method for ultrasonic arrays can be beneficial in certain scenarios where cost, power, tunability, remote control, and resolution are key issues
Keywords :
arrays; biomedical equipment; biomedical ultrasonics; crack detection; liquid crystal devices; nematic liquid crystals; ultrasonic materials testing; ultrasonic transducer arrays; 2-D transducer arrays; carrier tunability; compact low control power beamforming; cost; low cost lightweight compact optical beamforming techniques; machine parts inspection; nematic liquid crystal; optical beamforming; power; remote control; resolution; tiny crack detection; tiny stamp-size NLC 2-D optical array devices; transducer control sites; tumor detection; tunability; ultrasonic detection; ultrasonic phased arrays; Array signal processing; Biomedical optical imaging; Costs; Liquid crystal devices; Optical arrays; Optical beams; Optical control; Optical devices; Phased arrays; Ultrasonic transducer arrays;
Conference_Titel :
Lasers and Electro-Optics Society Annual Meeting, 1995. 8th Annual Meeting Conference Proceedings, Volume 1., IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-2450-1
DOI :
10.1109/LEOS.1995.484699
