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公开(公告)号:US20090157179A1
公开(公告)日:2009-06-18
申请号:US12332526
申请日:2008-12-11
IPC分类号: A61F2/16
CPC分类号: G02C7/02 , A61F2/1613 , G02C2202/22
摘要: An aspect of the invention is directed to an ophthalmic lens, comprising at least one optic comprising a lens zone. The zone is configured such that, when the lens is located in an average eye, for all object locations along an axis in a range from infinity to 1.0 diopters, for light having a wavelength 550 nm, the wavefront at the retina formed by the lens zone has the following characteristics 0.01 ≤ Z 40 Z 20 ≤ 5.0 , and 0.01≦|Z60|≦1.0 waves of 550 nm light. In some embodiments, 0.01≦|Z80|≦0.5 wave for light having a wavelength 550 nm.
摘要翻译: 本发明的一个方面涉及一种眼科镜片,其包括至少一个包括透镜区的光学元件。 该区域被构造成使得当透镜位于平均眼睛中时,对于在从无穷远到1.0屈光度的范围内的轴的所有物体位置,对于波长为550nm的光,由透镜形成的视网膜处的波前 区域具有以下特征
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公开(公告)号:US08337553B2
公开(公告)日:2012-12-25
申请号:US12846950
申请日:2010-07-30
申请人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra M. Jani , Candido D. Pinto
发明人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra M. Jani , Candido D. Pinto
CPC分类号: A61F2/14 , A61B18/20 , A61F2/142 , A61F2/1451 , A61F2/147 , A61F2/16 , A61F9/008 , A61L27/16 , A61L27/18 , A61L27/52 , B29D11/00355 , B29D11/00461 , B29D11/023 , B29K2083/00 , B29K2105/0061 , C08J7/12 , C08J7/123 , C08J2333/14 , C08J2339/06 , C08J2383/04 , G02B1/041 , G02C7/022 , G02C2202/12 , G02C2202/14
摘要: The invention is directed to an optical device comprising refractive optical structures, wherein the refractive structures are characterized by a change in refractive index, exhibit little or no scattering loss, and exhibit no significant differences in the Raman spectrum with respect to the non-irradiated optical, polymeric material.
摘要翻译: 本发明涉及一种包括折射光学结构的光学装置,其中折射结构的特征在于折射率的变化,显示很少或没有散射损耗,并且在拉曼光谱方面相对于未照射的光学器件没有显着差异 ,聚合材料。
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公开(公告)号:US20100298933A1
公开(公告)日:2010-11-25
申请号:US12846950
申请日:2010-07-30
申请人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
发明人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
CPC分类号: A61F2/14 , A61B18/20 , A61F2/142 , A61F2/1451 , A61F2/147 , A61F2/16 , A61F9/008 , A61L27/16 , A61L27/18 , A61L27/52 , B29D11/00355 , B29D11/00461 , B29D11/023 , B29K2083/00 , B29K2105/0061 , C08J7/12 , C08J7/123 , C08J2333/14 , C08J2339/06 , C08J2383/04 , G02B1/041 , G02C7/022 , G02C2202/12 , G02C2202/14
摘要: The invention is directed to an optical device comprising refractive optical structures, wherein the refractive structures are characterized by a change in refractive index, exhibit little or no scattering loss, and exhibit no significant differences in the Raman spectrum with respect to the non-irradiated optical, polymeric material.
摘要翻译: 本发明涉及一种包括折射光学结构的光学装置,其中折射结构的特征在于折射率的变化,显示很少或没有散射损耗,并且在拉曼光谱方面相对于未照射的光学器件没有显着差异 ,聚合材料。
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公开(公告)号:US20100188636A1
公开(公告)日:2010-07-29
申请号:US12509789
申请日:2009-07-27
CPC分类号: G02C7/044 , A61F2/1613 , A61F2/1618 , G02C7/028
摘要: An ophthalmic lens, comprising at least one optic including a first zone and a second zone having a second zone. The lens configured such that, when the lens is applied to an average eye, for objects located between infinity and a near focal plane of the average eye, an MTF of the eye's optical system has no phase reversals.
摘要翻译: 一种眼科镜片,包括至少一个光学元件,包括第一区域和具有第二区域的第二区域。 透镜被构造成使得当将透镜应用于平均眼睛时,对于位于平均眼睛的无穷远和近焦平面之间的物体,眼睛的光学系统的MTF没有相位反转。
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公开(公告)号:US20090143858A1
公开(公告)日:2009-06-04
申请号:US11948298
申请日:2007-11-30
申请人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
发明人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
CPC分类号: A61F2/1613 , A61B18/20 , A61F2/14 , A61F2/16 , A61F2/1627 , A61F2/1635 , B29D11/00461 , B29D11/023 , C08J7/12 , C08J7/123 , G02C2202/14
摘要: A method for modifying the refractive index of an optical, polymeric material. The method comprises irradiating select regions of the optical, polymeric material with a focused, visible or near-IR laser having a pulse energy from 0.05 nJ to 1000 nJ. The irradiation results in the formation of refractive optical structures, characterized by a change in refractive index, exhibit little or no scattering loss, and exhibit no significant differences in the Raman spectrum with respect to the non-irradiated optical, polymeric material. The method can be used to modify the refractive index of an intraocular lens following the surgical implantation of the intraocular lens in a human eye. The invention is also directed to an optical device comprising refractive optical structures, wherein the refractive structures are characterized by a change in refractive index, exhibit little or no scattering loss, and exhibit no significant differences in the Raman spectrum with respect to the non-irradiated optical, polymeric material.
摘要翻译: 用于改变光学聚合物材料的折射率的方法。 该方法包括用具有0.05nJ至1000nJ的脉冲能量的聚焦,可见或近红外激光照射光学聚合物材料的选择区域。 照射导致折射光学结构的形成,其特征在于折射率的变化,显示很少或没有散射损失,并且在拉曼光谱方面相对于未照射的光学聚合物材料没有显着差异。 该方法可以用于在人眼中手术植入人工晶状体后修改眼内透镜的折射率。 本发明还涉及一种包括折射光学结构的光学器件,其中折射结构的特征在于折射率的变化,表现出很少的或没有散射损耗,并且在拉曼光谱方面相对于未辐照的表现没有显着的差异 光学,聚合材料。
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6.
公开(公告)号:US20090059163A1
公开(公告)日:2009-03-05
申请号:US12194956
申请日:2008-08-20
申请人: Candido D. Pinto
发明人: Candido D. Pinto
CPC分类号: G02C7/04 , A61F2/1451 , A61F2/1618 , A61F2/164 , G02C7/028 , G02C7/046 , G02C2202/22
摘要: An aspect of the invention is directed to an ophthalmic lens, comprising at least one optic having at least one aspheric surface, the lens configured such that, when applied to an average eye, for a bandwidth between a wavelength of 656 nm and a wavelength of 486 nm, at a location disposed in a range 0.7 to 1.0 of the normalized clear aperture of the lens, the spherochromatism being less than 25 waves of the center wavelength of the bandwidth. In some embodiments, the lens is multizonal.
摘要翻译: 本发明的一个方面涉及一种眼科镜片,其包括至少一个具有至少一个非球面表面的光学元件,所述透镜被配置为使得当应用于平均眼睛时,对于656nm的波长和 486nm,在位于透镜的归一化清除孔径的0.7至1.0的范围内的位置处,球状染色体小于带宽中心波长的25个波。 在一些实施例中,透镜是多边形的。
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公开(公告)号:US20130138093A1
公开(公告)日:2013-05-30
申请号:US13686952
申请日:2012-11-28
申请人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
发明人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
CPC分类号: A61F2/14 , A61B18/20 , A61F2/142 , A61F2/1451 , A61F2/147 , A61F2/16 , A61F9/008 , A61L27/16 , A61L27/18 , A61L27/52 , B29D11/00355 , B29D11/00461 , B29D11/023 , B29K2083/00 , B29K2105/0061 , C08J7/12 , C08J7/123 , C08J2333/14 , C08J2339/06 , C08J2383/04 , G02B1/041 , G02C7/022 , G02C2202/12 , G02C2202/14
摘要: An optical device comprising an optical hydrogel with select regions that have been irradiated with laser light having a pulse energy from 0.01 nJ to 50 nJ and a wavelength from 600 nm to 900 nm. The irradiated regions are characterized by a positive change in refractive index of from 0.01 to 0.06, and exhibit little or no scattering loss. The optical hydrogel is prepared with a hydrophilic monomer.
摘要翻译: 一种光学装置,包括具有已经用激光照射的选择区域的光学水凝胶,所述激光具有0.01nJ至50nJ的脉冲能量和600nm至900nm的波长。 照射区域的特征在于折射率的正变化为0.01至0.06,并且表现出很小的或没有散射损失。 用亲水性单体制备光学水凝胶。
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公开(公告)号:US07789910B2
公开(公告)日:2010-09-07
申请号:US11948298
申请日:2007-11-30
申请人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
发明人: Wayne H. Knox , Li Ding , Jay F. Kunzler , Dharmendra Jani , Candido D. Pinto
IPC分类号: A61F2/16
CPC分类号: A61F2/1613 , A61B18/20 , A61F2/14 , A61F2/16 , A61F2/1627 , A61F2/1635 , B29D11/00461 , B29D11/023 , C08J7/12 , C08J7/123 , G02C2202/14
摘要: A method for modifying the refractive index of an optical, polymeric material. The method comprises irradiating select regions of the optical, polymeric material with a focused, visible or near-IR laser having a pulse energy from 0.05 nJ to 1000 nJ. The irradiation results in the formation of refractive optical structures, characterized by a change in refractive index, exhibit little or no scattering loss, and exhibit no significant differences in the Raman spectrum with respect to the non-irradiated optical, polymeric material. The method can be used to modify the refractive index of an intraocular lens following the surgical implantation of the intraocular lens in a human eye. The invention is also directed to an optical device comprising refractive optical structures, wherein the refractive structures are characterized by a change in refractive index, exhibit little or no scattering loss, and exhibit no significant differences in the Raman spectrum with respect to the non-irradiated optical, polymeric material.
摘要翻译: 用于改变光学聚合物材料的折射率的方法。 该方法包括用具有0.05nJ至1000nJ的脉冲能量的聚焦,可见或近红外激光照射光学聚合物材料的选择区域。 照射导致折射光学结构的形成,其特征在于折射率的变化,显示很少或没有散射损失,并且在拉曼光谱方面相对于未照射的光学聚合物材料没有显着差异。 该方法可以用于在人眼中手术植入人工晶状体后修改眼内透镜的折射率。 本发明还涉及一种包括折射光学结构的光学器件,其中折射结构的特征在于折射率的变化,表现出很少的或没有散射损耗,并且在拉曼光谱方面相对于未辐照的表现没有显着的差异 光学,聚合材料。
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