Linearization Response of Large Stroke Magnetic Fluid Deformable Mirrors

YUAN Shuai; WU Zhizheng; WANG Pei

doi:10.3969/j.issn.1003-501x.2015.04.002

[2] Tyson R K. Principles of Adaptive Optics[M]. Boca Raton: CRC Press, 2011: 8-11.

[3] Thalhammer G, Bowman R W, Love G D, et al. Speeding up liquid crystal SLMs using overdrive with phase change reduction[J]. Optics Express(S1094-4087), 2013, 21(2): 1779-1797.

[4] Huang H, Inoue T, Tanaka H. Stabilized high-accuracy correction of ocular aberrations with liquid crystal on silicon spatial light modulator in adaptive optics retinal imaging system[J]. Optics Express(S1094-4087), 2011, 19(16): 15026-15040.

[5] Verpoort S, Wittrock U. Actuator patterns for unimorph and bimorph deformable mirrors[J]. Applied Optics(S1559-128X), 2010, 49: 37-46.

[6] .dlund E, Raynaud H F, Kulcsár C, et al. Control of an electromagnetic deformable mirror using high speed dynamics characterization and identification[J]. Applied Optics(S1559-128X), 2010, 49(3): 120-128.

[7] Wlodarczyk K L, Bryce E, Schwartz N, et al. Scalable stacked array piezoelectric deformable mirror for astronomy and laser processing applications[J]. Review of Scientific Instruments(S0034-6748), 2014, 85(2): 024502.

[10] Gingras J, Dry J P, Yockell-Lelivre H, et al. Surface films of silver nanoparticles for new liquid mirrors[J]. Colloids and Surfaces A:Physicochemical and Engineering Aspects(S0927-7757), 2006, 279: 79-86.

[11] WU Zhizheng, Iabal Azhar, Amara Ben Foued. Modeling and Control of Magnetic Fluid Deformable Mirrors for Adaptive Optics Systems[M]. Springer: Berlin, 2013: 109-117.

[12] Rosensweig R E. Ferrohydrodynamics[M]. New York: Dover Publications, 1997: 33-36.