[1] Ganji B A, Majlis B Y. Design and fabrication of a new MEMS capacitive microphone using a perforated aluminum diaphragm[J]. Sensors and Actuators A: Physical, 2009, 149(1): 29-37.
[2] Seeger J I, Crary S B. Stabilization of electrostatically actuated mechanical devices[C]//1997 International Conference on Solid State Sensors and Actuators. IEEE, 1997: 1133-1136.
[3] Nathanson H C, Newell W E, Wickstrom R A, et al. The resonant gate transistor[J]. IEEE Transactions on Electron Devices, 1967, 14(3): 117-133.
[4] Nayfeh A H, Younis M I, AbdelRahman E M. Dynamic pullin phenomenon in MEMS resonators[J]. Nonlinear Dynamics, 2007, 48(1/2): 153-163.
[5] Shirbani M M, Shishesaz M, Hajnayed A, et al. Coupled magnetoelectromechanical lumped parameter model for a novel vibrationbased magnetoelectroelastic energy harvesting systems[J]. Physica E: Lowdimensional Systems and Nanostructures, 2017, 90: 158-169.
[6] Shishesaz M, Shirbani M M, Sedighi H M, et al. Design and analytical modeling of magnetoelectromechanical characteristics of a novel magnetoelectroelastic vibrationbased energy harvesting system[J]. Journal of Sound and Vibration, 2018, 425: 149-169.
[7] Imai S, Tsukioka T. A magnetic MEMS actuator using a permanent magnet and magnetic fluid enclosed in a cavity sandwiched by polymer diaphragms[J]. Precision Engineering, 2014, 38(3): 548-554.
[8] Skrzypacz P, Kadyrov S, Nurakhmetov D, et al. Analysis of dynamic pullin voltage of a graphene MEMS mode[J]. Nonlinear Analysis: Real World Applications, 2019, 45: 581-589.
[9] Sedighi H M, Daneshmand F, Zare J. The influence of dispersion forces on the dynamic pullin behavior of vibrating nanocantilever based NEMS including fringing field effect[J]. Archives of Civil and Mechanical Engineering, 2014, 14(4): 766-775.
[10] He J H, Nurakhmetov D, Skrzypacz P, et al. Dynamic pullin for microelectromechanical device with a currentcarrying conductor[J]. Journal of Low Frequency Noise, Vibration and Active Control, 2019: 1461348419847298.
[11] Assis A K T, Chaib J P M C. Ampere’s motor: Its history and the controversies surrounding its working mechanism[J]. American Journal of Physics, 2012, 80(11): 990-995.
[1]王越,张丽俊.广义可压缩杠杆方程的精确行波解[J].浙江理工大学学报,2018,39-40(自科5):624.
WANG Yue,ZHANG Lijun.The accurate traveling wave solution to a generalizedcompressible lever equation[J].Journal of Zhejiang Sci-Tech University,2018,39-40(自科三):624.
[2]原培英,张建明,张丽俊.一类复mKdV方程的精确行波解[J].浙江理工大学学报,2019,41-42(自科四):522.
YUAN Peiying,ZHANG Jianming,ZHANG Lijun.Exact traveling wave solutions to a complex mKdV equation[J].Journal of Zhejiang Sci-Tech University,2019,41-42(自科三):522.