Full Name
Guangya, Z.
Zhou, Guangya
Zhou, G.Y.
Zhou, G.

Refined By:
Author:  Hongbin, Y.

Results 1-20 of 33 (Search time: 0.005 seconds).

Issue DateTitleAuthor(s)
12012A compact circumferential scanned endoscopic imaging probe using a MEMS-driven pyramidal polygon reflectorMu, X.J.; Zhou, G. ; Yu, H.B. ; Du, Y. ; Feng, H.H.; Tsai, J.M.L.; Chau, F.S. 
216-Mar-2009A liquid-filled tunable double-focus microlensYu, H.B. ; Zhou, G.Y. ; Chau, F.K. ; Lee, F.W.; Wang, S.H.; Leung, H.M.
316-Feb-2009A MEMS-based resonant-scanning lamellar grating Fourier transform micro-spectrometer with laser reference systemLee, F.; Zhou, G. ; Yu, H. ; Chau, F.S. 
41-Oct-2008A tunable Shack-Hartmann wavefront sensor based on a liquid-filled microlens arrayHongbin, Y. ; Guangya, Z. ; Siong, C.F. ; Feiwen, L.; Shouhua, W.
51-Nov-2008A variable optical attenuator based on optofluidic technologyHongbin, Y. ; Guangya, Z. ; Siong, C.F. ; Feiwen, L.
61-May-2008An electromagnetically driven lamellar grating based Fourier transform microspectrometerHongbin, Y. ; Guangya, Z. ; Siong, C.F. ; Feiwen, L.; Shouhua, W.; Mingsheng, Z.
72012An electrostatically-driven MEMS tunable miniature iris diaphragmYu, H. ; Zhou, G. ; Chau, F.S. 
811-Oct-2010An in-plane nano-mechanics approach to achieve reversible resonance control of photonic crystal nanocavitiesChew, X.; Zhou, G. ; Yu, H. ; Chau, F.S. ; Deng, J.; Loke, Y.C.; Tang, X.
912-Mar-2012Compact MEMS-driven pyramidal polygon reflector for circumferential scanned endoscopic imaging probeMu, X.; Zhou, G. ; Yu, H. ; Du, Y. ; Feng, H.; Tsai, J.M.L.; Chau, F.S. 
102013Deformable mold based on-demand microchannel fabrication technologyYu, H. ; Zhou, G. 
112009Development of liquid tunable diffractive/refractive hybrid lens based on combination of diamond turning and soft lithographyLeung, H.M.; Yu, H. ; Zhou, G. ; Kumar, A.S. ; Chau, F.S. 
122010Diamond turning and soft lithography processes for liquid tunable lensesLeung, H.M.; Zhou, G. ; Yu, H. ; Chau, F.S. ; Kumar, A.S. 
13Jan-2013Erratum: Nano-tribometer integrated with a nano-photonic displacement-sensing mechanism (Journal of Micromechanics and Microengineering (2011) 21 (065014))Yu, H. ; Zhou, G. ; Chew, X.; Sinha, S.K. ; Chau, F.S. 
141-Nov-2009Fabrication and characterization of PDMS microlenses based on elastomeric molding technologyYu, H. ; Zhou, G. ; Chau, F.S. ; Lee, F.
152008Fano resonance phenomenon utilizing photonic crystal rods for tunable filter applicationsChew, X.; Zhou, G. ; Yu, H. ; Chau, F.S. 
16Apr-2010Lens integrated with self-aligned variable aperture using pneumatic actuation methodYu, H. ; Zhou, G. ; Sinha, S.K. ; Chau, F.S. ; Wang, S.
17Sep-2009Lens with transformable-type and tunable-focal-length characteristicsHongbin, Y. ; Guangya, Z. ; Siong, C.F. ; Shouhua, W.
1815-Sep-2009Liquid tunable diffractive/refractive hybrid lensZhou, G. ; Leung, H.M.; Yu, H. ; Kumar, A.S. ; Chau, F.S. 
1920-Oct-2009Liquid tunable double-focus lens fabricated with diamond cutting and soft lithographyLeung, H.M.; Zhou, G. ; Yu, H. ; Chau, F.S. ; Kumar, A.S. 
202012MEMS-Based tunable iris diaphragmYu, H. ; Zhou, G. ; Du, Y. ; Mu, X.; Chau, F.S.