Title :
Air-backed optoacoustic transmitter for high amplitude quasi-monopolar wave
Author :
Taehwa Lee ; Cheng Zhang ; Qiaochu Li ; Guo, L. Jay ; Hyoung Won Baac
Author_Institution :
Guo Res. Group, Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
Unipolar acoustic wave is advantageous for high resolution imaging and detection due to its high frequency characteristic. However it is difficult to achieve the unipolar waveform using with traditional piezoelectric transducers. Here, we demonstrate unipolar acoustic wave form using an optoacoustic approach by directly exposing the absorbing layers of photoacoustic transmitters to air (i.e., an air-backed optoacoustic transmitter), which simultaneously increases signal amplitudes by employing an acoustic matching layer on the air-side.
Keywords :
acoustic imaging; acoustic transducers; acoustic waves; photoacoustic effect; piezoelectric transducers; acoustic matching layer; air-backed optoacoustic transmitter; high amplitude quasimonopolar wave; high resolution imaging; optoacoustic approach; piezoelectric transducers; unipolar acoustic wave; Acoustic measurements; Acoustic pulses; Acoustic waves; Lasers; Mathematical model; Transmitters; Optoacoustics; acoustic matching layer; air-backed transmitter; carbon-nanotube (CNT)-polymer composite;
Conference_Titel :
Ultrasonics Symposium (IUS), 2014 IEEE International
Conference_Location :
Chicago, IL
DOI :
10.1109/ULTSYM.2014.0216
