Switchable electro-optic diffractive lens with high efficiency for ophthalmic applications

Li, Guoqiang; Mathine, D.; Valley, Pouria; Äyräs, Pekka; Haddock, Joshua N.; Giridhar, M. S.; Williby, Gregory A.; Schwiegerling, Jim; Meredith, G. R.; Kippelen, Bernard; Honkanen, Seppo; Peyghambarian, N.

doi:10.1073/pnas.0600850103

Cited by 176 publications

(94 citation statements)

References 23 publications

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“…The future work on this topic involves the analysis of interaction of LC with the other nano-materials which would lead to the improved display applications. Moreover, the control of alignment of LC by using various sizes GNPs would allow the development of new non-display LC devices, including tunable lenses [32][33][34][35], optical sensors, lasers and other photonic devices.…”

Section: Discussionmentioning

confidence: 99%

Anisotropic shift of surface plasmon resonance of gold nanoparticles doped in nematic liquid crystal

Choudhary¹,

Li²

2014

Opt. Express

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Study of the liquid crystal (LC) director around nanoparticles has been an important topic of research very recently, since it allows design and fabrication of next-generation LC devices that are impossible in the past. In our experiment, alkanethiol-capped gold nanoparticles (GNPs) were dispersed in nematic LC. Analysis of the LC director around GNPs was performed by investigating the behavior of surface plasmon polariton (SPP) absorption peaks of the GNPs using spectrophotometry technique. It is found that the incident linearly polarized light orientated at 0°, 45°, and 90° angles with respect to the rubbing direction experiences varying interaction with the LC medium. The corresponding transmission of light reveals the anisotropic shift in wavelength of SPP peak. The anisotropic behavior of SPPs of the GNPs is in agreement with theoretical calculations. Science 275(5307), 1770-1773 (1997). 8. R. Yamamoto, "Simulating particle dispersions in nematic liquid-crystal solvents," Phys. Rev. Lett. 87(7), 075502 (2001). 9. J. Fukuda, M. Yoneya, and H. Yokoyama, "Nematic liquid crystal around a spherical particle: Investigation of the defect structure and its stability using adaptive mesh refinement," Eur Phys J E Soft Matter 13(1), 87-98 (2004). 10. M. A. Bates, "Nanospheres in a nematic liquid crystal solvent: the influence of particle size," Liq. Cryst. 32(11-12), 1525-1529 (2005 ©2014 Optical Society of America

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Section: Discussionmentioning

confidence: 99%

Anisotropic shift of surface plasmon resonance of gold nanoparticles doped in nematic liquid crystal

Choudhary¹,

Li²

2014

Opt. Express

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“…For example, for an LC lens with a 30 μm cell gap, the response time is about 1 s [6]. To reduce response time, several methods have been proposed, such as using a high birefringence LC to reduce cell gap [7], a Fresnel lens instead of a conventional LC lens [8][9][10], a polymer network LC [11], and by applying overdrive and undershoot voltages [12,13].…”

Section: Introductionmentioning

confidence: 99%

Polymeric-lens-embedded 2D/3D switchable display with dramatically reduced crosstalk

Zhu

Hong

et al. 2014

Appl. Opt.

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A two-dimensional/three-dimensional (2D/3D) display system is presented based on a twisted-nematic cell integrated polymeric microlens array. This device structure has the advantages of fast response time and low operation voltage. The crosstalk of the system is analyzed in detail and two approaches are proposed to reduce the crosstalk: a double lens system and the prism approach. Illuminance distribution analysis proves these two approaches can dramatically reduce crosstalk, thus improving image quality.

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“…[6][7][8][9] They usually have a diffractive design, either displayed on a pixelated device, 5,8 or on a device consisting of other arrays of cells (e.g., with circular symmetry in Ref. 9). A commercially available eyewear system targets presbyopia by means of a progressive-addition lens that contains a liquid crystal device layer.…”

Section: Introductionmentioning

confidence: 99%

“…Some liquid crystal devices have been already proposed for their use as spectacle lenses and some prototypes can be found in the literature. [6][7][8][9] They usually have a diffractive design, either displayed on a pixelated device, 5,8 or on a device consisting of other arrays of cells (e.g., with circular symmetry in Ref. 9).…”

Section: Introductionmentioning

confidence: 99%

Programmable diffractive lens for ophthalmic application

et al. 2014

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Abstract. Pixelated liquid crystal displays have been widely used as spatial light modulators to implement programmable diffractive optical elements, particularly diffractive lenses. Many different applications of such components have been developed in information optics and optical processors that take advantage of their properties of great flexibility, easy and fast refreshment, and multiplexing capability in comparison with equivalent conventional refractive lenses. We explore the application of programmable diffractive lenses displayed on the pixelated screen of a liquid crystal on silicon spatial light modulator to ophthalmic optics. In particular, we consider the use of programmable diffractive lenses for the visual compensation of refractive errors (myopia, hypermetropia, astigmatism) and presbyopia. The principles of compensation are described and sketched using geometrical optics and paraxial ray tracing. For the proof of concept, a series of experiments with artificial eye in optical bench are conducted. We analyze the compensation precision in terms of optical power and compare the results with those obtained by means of conventional ophthalmic lenses. Practical considerations oriented to feasible applications are provided.

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Switchable electro-optic diffractive lens with high efficiency for ophthalmic applications

Cited by 176 publications

References 23 publications

Anisotropic shift of surface plasmon resonance of gold nanoparticles doped in nematic liquid crystal

Anisotropic shift of surface plasmon resonance of gold nanoparticles doped in nematic liquid crystal

Polymeric-lens-embedded 2D/3D switchable display with dramatically reduced crosstalk

Programmable diffractive lens for ophthalmic application

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