Page 237 -
P. 237

228   References
                            1.9  Yee Y, Nam HJ, Lee SH, Bu JU, Jeon YS, Cho SM (2000) PZT actuated
                                 micromirror for nano-trackingof laser beam for high-density optical
                                 data storage. Proc MEMS, Miyazaki Japan, 435–440
                            1.10  Chiou PY, Ohta A, Wu MC (2004) Toward all optical lab-on-a-chip
                                 system: optical manipulation of both microfluids and microscopic par-
                                 ticles. Proc SPIE 5514:73–81
                            1.11  Suzuki K, Shimoyama I, Miura H, Ezura Y (1992) Proc MEMS, Trave-
                                 munde, 190–193,
                            1.12  Furuya A, Shimokawa F, Matuura T, Sawada R (1994) J Micromech
                                 Microeng4:67
                            1.13  Cox JA, Zook JD, Ohnstein T (1995) Proc SPIE 2383:17–24
                            1.14  Uenishi Y, Tanaka H, Ukita H (1995) AlGaAs/GaAs micromachin-
                                 ingfor monolithic integration of micromechanical structures with laser
                                 diodes. IEICE Trans Electron E78-C:139–145
                            1.15  Hjort K et al (1997) Demands and solutions for an indium phosphide
                                 based micromechanically tunable WDM photo detectors. Int Conf on
                                 Optical MEMS and Their Applications Nara Japan: 39–44
                            1.16  Sugihwo F, Larson MC, Harris JS (1997) Low threshold continuously
                                 tunable vertical-cavity surface-emittinglasers with 19.1 nm wavelength
                                 range. Appl Phy Lett 70:547–549
                            1.17  Ukita H, Uenishi Y, Tanaka H (1993) A photomicrodynamic system
                                 with a mechanical resonator monolithically integrated with laser diodes
                                 on gallium arsenide. Science 260:786–789
                            1.18  Paesler MA, Moyer PJ (1996) Near-field optics. John Wiley and Sons
                                 Inc, New York
                            1.19  Novotny L, Bian RX, Xie XS (1997) Theory of nanometric optical
                                 tweezers. Phys Rev Lett 79:645–648
                            1.20  Lin LY, Shen JL, Lee SS, Wu MC (1996) Realization of novel monolithic
                                 free-space optical disk pickup heads by surface micromachining. Opt
                                 Lett 21:155–157
                            1.21  Noell W, Clerc PA, Dellmann L, Guldimann B, HerzigHP, Manzardo
                                 O, Marxer CR, Weible KJ, D¨andliker R, Rooij N (2002) Applications of
                                 SOI-based optical MEMS. IEEE J Select Top Quantum Electron Opt
                                 MEMS 8:148–154
                            1.22  Mehregany M, Bart SF, Tavrow LS, Lang JH, Senturia SD, Schlecht MF
                                 (1990) A study of three microfabricated variable-capacitance motors.
                                 Sens Actuat A21:73–179
                            1.23  Tay FEH, van Kan JA, Watt F, ChoongWO (2001) A novel micro-
                                 machiningmethod for the fabrication of thick-film SU-8 embedded
                                 micro-channels. J Micromech Microeng11:27–32
                            1.24  Becker EW et al (1986) Fabrication of microstructures with high aspect
                                 ratios and great structural heights by synchrotron radiation lithogra-
                                 phy galvanoformung and plastic molding (LIGA process). Microelectron
                                 Eng4:35–56
   232   233   234   235   236   237   238   239   240   241   242