Title :
PMN-PT single crystal thick films on silicon substrate for high-frequency micromachined ultrasonic transducers
Author :
Peng, Jue ; Lau, Sienting ; Chao, Chen ; Dai, Jiyan ; Chan, Helen L.W. ; Lu, Haosu ; Zhou, Q.F. ; Shung, K.K.
Author_Institution :
Dept. of Appl. Phys., Hong Kong Polytech. Univ., Hong Kong
Abstract :
In this work, a novel high-frequency ultrasonic transducer structure is realized by using PMNPT-on-silicon technology and silicon micromachining. To prepare the single crystalline PMNPT-on-silicon wafers, a hybrid processing method involving wafer bonding, mechanical lapping and wet chemical thinning is successfully developed. The active element is fixed within the stainless steel needle housing. The measured center frequency and -6 dB bandwidth of the transducer are 35 MHz and 34%, respectively. Owing to the excellent electromechanical property of PMNPT film, the transducer shows good energy conversion performance with a very low insertion loss down to 8.3 dB at the center frequency.
Keywords :
bioMEMS; biomedical transducers; biomedical ultrasonics; lapping (machining); lead compounds; micromachining; needles; silicon; stainless steel; thick film devices; ultrasonic transducers; wafer bonding; FeCCrJk; PMN-PT single crystal thick film; PMN-PbTiO3-Si; PMNPT-on-silicon technology; arterial wall; electromechanical property; energy conversion performance; frequency 35 MHz; high-frequency ultrasonic transducer; hybrid processing method; mechanical lapping; silicon micromachining; wafer bonding; wet chemical thinning; Chemical processes; Chemical technology; Crystallization; Lapping; Micromachining; Silicon; Substrates; Thick films; Ultrasonic transducers; Wafer bonding; PMN-PT; pMUT; ultrasound transducer;
Conference_Titel :
Ultrasonics Symposium, 2008. IUS 2008. IEEE
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-2428-3
Electronic_ISBN :
978-1-4244-2480-1
DOI :
10.1109/ULTSYM.2008.0039
