[1] Okuda M, Wakita N, Ohya K et al. A laser scanner using stacked piezoelectric ceramic actuator[J]. Japanese Journal of Applied Physics, 25, 223(1986).
[2] Furutani K, Ohta N. Displacement monitoring of stacked piezoelectric actuator by observing induced charge[J]. International Journal of Automation Technology, 2, 12-17(2008).
[3] Tang J, Liu J, Huang H Q. Optimization of preparation process of PZT/PVDF piezoelectric composite doped with graphene[J]. New Chemical Materials, 48, 85-89(2020).
[4] Luo H. Design and application of biological microscope autofocus system based on piezoelectric actuator[D](2019).
[5] Li X Y, Ling N, Chen D H et al. Stable control of the fast steering mirror in adaptive optics system[J]. High Power Laser and Particle Beams, 11, 35-40(1999).
[6] Loney G C. Design of a small-aperture steering mirror for high bandwidth acquisition and tracking[J]. Optical Engineering, 29, 1360-1365(1990).
[7] Zhou R, Zhang Q, Gan Y D et al. Transfer function identification method for fast-steering mirror driven by PZT[J]. Chinese Journal of Lasers, 47, 1105002(2020).
[8] Zhang B N, Zhang L, Huang G H et al. Research on dual-mode hybrid detection technology using laser to point directed by infrared camera[J]. Chinese Journal of Lasers, 38, 0917001(2011).
[9] Klochkova V G, Sheldakova Y V, Vlasyuk V V et al. Improving the efficiency of high-resolution spectroscopy on the 6-m telescope using adaptive optics techniques[J]. Astrophysical Bulletin, 75, 468-481(2020).
[10] Xu S Q, Wei L C, Wu S Y et al. The research of performance evaluation of adaptive optics for satellite to ground coherent laser communication[J]. Laser & Infrared, 50, 1498-1503(2020).
[11] Ran B, Yang P, Wen L H et al. Analysis and compensation of reaction force in large-aperture piezoelectric fast steering mirror[J]. Chinese Journal of Lasers, 47, 0601007(2020).
[12] Liu T J C. Crack repair performance of piezoelectric actuator estimated by slope continuity and fracture mechanics[J]. Engineering Fracture Mechanics, 75, 2566-2574(2008).
[13] Shivashankar P, Gopalakrishnan S. Design, modeling and testing of d33-mode surface-bondable multilayer piezoelectric actuator[J]. Smart Materials and Structures, 29, 045016(2020).
[14] Luo Q, Tong L. Exact static solutions to piezoelectric smart beams including peel stresses. Ⅱ. Numerical results, comparison and discussion[J]. International Journal of Solids & Structures, 39, 4677-4695(2002).
[15] Furuta A, Uchino K. Destruction mechanism of multilayer ceramic actuators: case of antiferroelectrics[J]. Ferroelectrics, 160, 277-285(1994).
[16] Furuta A, Uchino K. Dynamic observation of crack propagation in piezoelectric multilayer actuators[J]. Journal of the American Ceramic Society, 76, 1615-1617(1993).
[17] Pan Y S, Chen D P. Finite element analysis of nonlinear fracture for piezoelectric ceramics[J]. Journal of Southwest Jiaotong University, 35, 451-456(2000).
[18] Bi M T, Shi Y Z, Chen J et al. FEM analysis of residual stress of nano Ag bonding for multilayer piezoelectric ceramic actuators[C], 3(2006).
[19] Woo S C, Goo N S. Analysis of the bending fracture process for piezoelectric composite actuators using dominant frequency bands by acoustic emission[J]. Composites Science and Technology, 67, 1499-1508(2007).
[20] Wang L, Bai R X, Chen H R. Analytical modeling of the interface crack between a piezoelectric actuator and an elastic substrate considering shear effects[J]. International Journal of Mechanical Sciences, 66, 141-148(2013).
[21] Gao X Y, Xin X D, Wu J G et al. A multilayered-cylindrical piezoelectric shear actuator operating in shear (d15) mode[J]. Applied Physics Letters, 112, 152902(2018).
[22] IEEE[S]. An American national standard: IEEE standard on piezoelectricity: ANSI/IEEE Std 176—1987(1987).
[23] Tang Y Z, Gu H B. Analysis of the longitudinal vibration transducer without prestressed screw[C], 167-170(2020).
