Femtosecond laser microfabrication of periodic structures using a microlens arrayMATSUO, S; JUODKAZIS, S; MISAWA, H et al.Applied physics. A, Materials science & processing (Print). 2005, Vol 80, Num 4, pp 683-685, issn 0947-8396, 3 p.Article

Apparent Motions of Quasars due to MicrolensingSAZHIN, M. V; SAZHINA, O. S; PSHIRKOV, M. S et al.Astronomy reports. 2011, Vol 55, Num 11, pp 954-961, issn 1063-7729, 8 p.Article

Observable effects during gravitational microlensing of stars by NUT objectsBOGDANOV, M. B; CHEREPASHCHUK, A. M; SAMUS, N et al.Astronomy reports. 2007, Vol 51, Num 6, pp 481-485, issn 1063-7729, 5 p.Article

Optics between two polymeric micro convex lens arraysHAYASHI, S; YAMANAKA, T; KUMAMOTO, Y et al.Kobunshi ronbunshu (Tokyo). 1996, Vol 53, Num 2, pp 142-148, issn 0386-2186Article

Effect of Weak Gravitational Microlensing on Pulsar TimingPSHIRKOV, M. S; SAZHIN, M. V; ILYASOV, Yu. P et al.Astronomy letters (Print). 2008, Vol 34, Num 6, pp 397-404, issn 1063-7737, 8 p.Article

Artificial compound-eye imaging system with a large field of view based on a convex solid substrateYUKUN ZHANG; JINGLEI DU; LIFANG SHI et al.Proceedings of SPIE, the International Society for Optical Engineering. 2010, Vol 7848, issn 0277-786X, isbn 978-0-8194-8378-2, 78480U.1-78480U.5Conference Paper

Dry etching for coherent refractive microlens arraysSTERN, M. R; JAY, T. R.Optical engineering (Bellingham. Print). 1994, Vol 33, Num 11, pp 3547-3551, issn 0091-3286Article

Fabrication of refractive microlens arrays by excimer laser ablation of amorphous TeflonMIHAILOV, S; LAZARE, S.Applied optics. 1993, Vol 32, Num 31, pp 6211-6218, issn 0003-6935Article

Automatic design of multiple imaging lens systems with a GRIN lens array II: simultaneous designRENERO-CARRILLO, F.-J; ICHIOKA, Y.Optik (Stuttgart). 1995, Vol 99, Num 3, pp 107-112, issn 0030-4026Article

THE IMPORTANCE OF BINARY GRAVITATIONAL MICROLENSING EVENTS THROUGH HIGH-MAGNIFICATION CHANNELCHEONGHO HAN; HWANG, Kyu-Ha.The Astrophysical journal. 2009, Vol 707, Num 1, pp 1264-1268, issn 0004-637X, 5 p., 2Article

Miniaturized, focusing fan-out elements : Design, fabrication and characterizationSCHILLING, A; NUSSBAUM, P; OSSMANN, C et al.SPIE proceedings series. 1998, pp 386-388, isbn 0-8194-2949-XConference Paper

Diffraction-limited blazed reflection diffractive microlenses for oblique incidence fabricated by electron-beam lithographySHIONO, T; OGAWA, H.Applied optics. 1991, Vol 30, Num 25, pp 3643-3649, issn 0003-6935Article

A CHARACTERISTIC PLANETARY FEATURE IN DOUBLE-PEAKED, HIGH-MAGNIFICATION MICROLENSING EVENTSHAN, Cheongho; GAUDI, B. Scott.The Astrophysical journal. 2008, Vol 689, Num 1, pp 53-58, issn 0004-637X, 6 p., 1Article

On the feasibility of characterizing lens stars in future space-based microlensing surveysHAN, Cheongho.The Astrophysical journal. 2005, Vol 633, Num 1, pp 414-417, issn 0004-637X, 4 p., 1Article

An optical interconnection system for arrays of micro emitters and detectors : Combining printed microlenses and large diameter GRINsBAUKENS, V; GOULET, A; VERETENNICOFF, I et al.SPIE proceedings series. 1998, pp 155-158, isbn 0-8194-2949-XConference Paper

LIMITS OF BINARIES THAT CAN BE CHARACTERIZED BY GRAVITATIONAL MICROLENSINGKIM, Doeon; RYU, Yoon-Hyun; PARK, Byeong-Gon et al.The Astrophysical journal. 2008, Vol 689, Num 2, pp 1084-1088, issn 0004-637X, 5 p., 1Article

Microlens array recording of localized retinal responsesZHANG, Qiu-Xiang; WANG, Jin-Yu; LEI LIU et al.Optics letters. 2010, Vol 35, Num 22, pp 3838-3840, issn 0146-9592, 3 p.Article

Polymer microlens array with tunable focal intensity by the polarization control of the incident lightHUANG, San-Yi; TUNG, Tung-Chen; KO, Shin-Wei et al.Proceedings of SPIE, the International Society for Optical Engineering. 2010, Vol 7598, issn 0277-786X, isbn 0-8194-7994-2 978-0-8194-7994-5, 1Vol, 75981R.1-75981R.5Conference Paper

Projection Photolithography Method for Fabricating Continuous Surface Structure with Aperture Less than 10 μmLIFANG SHI; WEIGUO ZHANG; XIAOCHUN DONG et al.Proceedings of SPIE, the International Society for Optical Engineering. 2010, Vol 7848, issn 0277-786X, isbn 978-0-8194-8378-2, 78480T.1-78480T.6Conference Paper

Fabrication of microlens arrays on a glass substrate by roll-to-roll process with PDMS moldHU, Chia-Nying; SU, Guo-Dung John.Proceedings of SPIE, the International Society for Optical Engineering. 2009, Vol 7425, issn 0277-786X, isbn 0-8194-7715-X 978-0-8194-7715-6, 74250Y.1-74250Y.9Conference Paper

Bach fabrication of microlens at the end of optical fiber using self-photolithgraphy and etching techniquesMINH, Phan Ngoc; ONO, Takahito; HAGA, Yoichi et al.Optical review. 2003, Vol 10, Num 3, pp 150-154, issn 1340-6000, 5 p.Article

Optical properties of square-aperture planar microlens arrayJIE CHEN; FENGJUN ZHANG; XIAOMEI CHEN et al.Proceedings of SPIE, the International Society for Optical Engineering. 2011, Vol 8191, issn 0277-786X, isbn 978-0-8194-8832-9, 819123.1-819123.8Conference Paper

Spherical and Non-Spherical High Fill-Factor Microlens Arrays Fabricated by Polymer Coating on Isotropically Etched QuartzNAM, Minwoo; OH, Haekwan; KIM, Geunyoung et al.Proceedings of SPIE, the International Society for Optical Engineering. 2011, Vol 7928, issn 0277-786X, isbn 978-0-8194-8465-9 0-8194-8465-2, 792804.1-792804.6Conference Paper

A novel boundary-confined method for high numerical aperture microlens array fabricationHSIEH, Hsin-Ta; SU, Guo-Dung John.Journal of micromechanics and microengineering (Print). 2010, Vol 20, Num 3, issn 0960-1317, 035023.1-035023.7Article

Large dynamic range wavefront sensor based on a cylindrical microlens arrayARES, M; ROYO, S.Proceedings of SPIE, the International Society for Optica Engineering. 2007, pp 658529.1-658529.9, issn 0277-786X, isbn 978-0-8194-6713-3, 1VolConference Paper