Page 240 -
P. 240
References 231
1.57 Lee JB, Chen Z, Allen MG, Rohatgi A, Arya R (1994) A high voltage
solar cell array as an electrostatic MEMS power supply. Proc MEMS,
Oiso Japan: 331–336
1.58 Sakakibara T, Izu H, Shibata T, Takahashi S, Tarui H, Hirano H,
Shibata K, Kiyama S, Kawahara N (2001) Multi-source power sup-
ply system usingmicro-photovoltaic devices combined with microwave
antenna. Technical Digest of MEMS, Interlaken Switzerland: 192–195
1.59 Ashkin A (2000) History of optical trappingand manipulation of small-
neutral particle atom and molecules. IEEE J Select Top Quantum Elec-
tron 6:841–856
1.60 Friese MEJ, Rubinsztein-Dunlop H, Gold J, Hagberg P, Hanstorp
D (2001) Optically driven micromachine elements. Appl Phy Lett
78:547–549
1.61 Harada T, Yoshikaw K (2002) Mode switchingof an optical motor. Appl
Phy Lett 81:4850–4852
1.62 Higurashi E, Ukita H, Tanaka H, Ohguchi O (1994) Rotational control
of micro-objects by optical pressure. Proc MEMS, Oiso Japan: 291–296
1.63 Ukita H, Nagatomi K (2003) Optical tweezers and fluid characteristics
of an optical rotator with slopes on the surface upon which light is
incident and a cylindrical body. Appl Opt 42:2708–2715
1.64 Galajda, P Ormos P (2001) Complex micromachines produced and
driven by light. Appl Phy Lett 78:249–251
1.65 Maruo S, Ikuta K, Hayato K (2001) Light-driven MEMS made by high-
speed two-photon microstereolithography. Technical Digest of MEMS,
Interlaken Switzerland: 954–957
1.66 Ukita H, Takada K and Itoh Y (2004) Experimental and theoretical
analyses of 3-D micro-flows generated by an optical mixer, Proc SPIE
Opt Sci Technol 5514:704–711
1.67 Ukita H (2004) A tunable laser diode with a photothermally driven in-
tegrated cantilever and related properties. IEEE J Select Top Quantum
Electron Opt Microsyst 10:622–628
1.68 Sawada R, Ohguchi O, Mise, K Tsubamoto M (1994) Fabrication of
advanced integrated optical micro-encoder chips. Proc MEMS, Oiso
Japan: 337–342
1.69 Ukita H, Katagiri Y, Nakada H (1991) Flying head read/write charac-
teristics usinga monolithically integrated laser diode/photodiode at a
wavelength of 1.3 µm, Proc SPIE Opt Data Storage 1499:48–262
1.70 Higurashi E, Sawada R, Ito T (2003) An integrated laser blood flowme-
ter. J. Lightwave Tech 21:591–595
1.71 Katagiri Y, Ukita H (1990) Ion beam sputtered (S i O 2 ) x (Si 3 N 4 ) 1−x an-
tireflection coatingon laser facet produced usingO 2 –N 2 discharges.
Appl Opt 29:5074–5079
1.72 Ukita H, Tanabe Y, Okada A (2004) Improved photothermal deflection
design of an integrated microbeam for application to an external-cavity
tunable laser diode. Smart Mater Struct 13:970–975
