[1] Schlesinger T E, Rausch T. An integrated read/write head for hybrid recording[J]. Jap. J. Appl. Phys., 2002, 41(Part1, 3B): 1821~1824
[2] H. Katayama, M. Hamamoto, J. Sato et al.. New developments in laser-assisted magnetic recording[C]. IEEE Trans. Magn., 2000, 36(1): 195~199
[3] S. R. Cumpson, P. Hidding, R. Coehoorn. A hybrid recording method using thermally assisted writing and flux sensitive detection[C]. IEEE Trans. Magn., 2000, 36(5): 2271~2275
[4] J. J. M. Ruigrok, R. Coehoorn, S. R. Cumpson. Disk recording beyond 100 GB/in2: Hybrid recording[J]. J. Appl. Phys., 2000, 87: 5398~5403
[7] Gan Fuxi et al.. Digital Optical Disk Recording Technique[M]. Beijing: Science Press, 1998. 306~309
[8] Donald Croft, Santosh Devasia. Hysteresis and vibration compensation for piezoactuators[J]. J. Guidance, Control, and Dynamics, 1998, 21(5): 710~717
[9] Leigh T., Zimmerman. An implicit methodfor nonlinear modelling and simulation of piezoceramic actuators displaying hysteresis, Smart structures and material[C]. Proceedings of the Symposium, 112th ASME Winter Annual Mettering, 1991, 24: 57~63
[10] I. D. Mayergoyz. Mathematical Models of Hysteresis[J]. Phys. Rev. Lett., 1986, 56(15): 1518~1521
[11] R. Ben Mrad, H. Hu. A model for voltage-to-displacement dynamics in piezoceramic actuators subject to dynamic-voltage excitations[C]. IEEE/ASME Transations on Mechatronics, 2002, 7(4): 479~489