Diffractive multifocal ophthalmic lens
First Claim
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1. A method of reducing the glare associated with a diffractive, multifocal ophthalmic lens producing a distant image and a near image, the diffractive, multifocal ophthalmic lens having a plurality of echelettes located at a radius ri from an optical axis of the lens, each of the echelettes having a step height, the method comprising the steps of:
- a) selecting a base curve;
b) calculating the position, ri, of each echelette with respect to the base curve;
c) choosing the step height for each echelette; and
d) progressively reducing the step height of each echelette by an apodization factor ƒ
apodize in a selected apodization zone, the reduction in the step height increasing for each echelette in the apodization zone as the distance of each echelette from the optical axis increases;
whereby the glare associated with a diffractive, multifocal ophthalmic lens is reduced by shifting the energy balance between the near image and the distant image by smoothly reducing the step height of each echelette in the apodization zone.
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Abstract
A diffractive, multifocal ophthalmic lens including an apodization zone with echelettes having a smoothly reduced step height to shift the energy balance from the near image to the distant image and thus reduce the glare perceived when viewing a discrete, distant light source.
268 Citations
7 Claims
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1. A method of reducing the glare associated with a diffractive, multifocal ophthalmic lens producing a distant image and a near image, the diffractive, multifocal ophthalmic lens having a plurality of echelettes located at a radius ri from an optical axis of the lens, each of the echelettes having a step height, the method comprising the steps of:
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a) selecting a base curve; b) calculating the position, ri, of each echelette with respect to the base curve; c) choosing the step height for each echelette; and d) progressively reducing the step height of each echelette by an apodization factor ƒ
apodize in a selected apodization zone, the reduction in the step height increasing for each echelette in the apodization zone as the distance of each echelette from the optical axis increases;whereby the glare associated with a diffractive, multifocal ophthalmic lens is reduced by shifting the energy balance between the near image and the distant image by smoothly reducing the step height of each echelette in the apodization zone. - View Dependent Claims (2, 3, 4)
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5. An ophthalmic lens, comprising:
- an optic having a plurality of echelettes, each echelette being located at a radius ri from the optical axis and having a step height progressively reduced by an apodization factor ƒ
apodize, the apodization factor being determined by the following equation;
##EQU10## where rout =ri at the outer boundary of the apodization zone.
- an optic having a plurality of echelettes, each echelette being located at a radius ri from the optical axis and having a step height progressively reduced by an apodization factor ƒ
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6. An ophthalmic lens, comprising:
- an optic with a plurality of echelettes, each echelette being located in an apodization zone, the apodization zone beginning at a radius ri from the optical axis and having a step height progressively reduced by an apodization factor ƒ
apodize, the apodization factor being determined by the following equation;
##EQU11## where rin =ri at the inner boundary of the apodization zone; and
rout =ri at the outer boundary of the apodization zone.
- an optic with a plurality of echelettes, each echelette being located in an apodization zone, the apodization zone beginning at a radius ri from the optical axis and having a step height progressively reduced by an apodization factor ƒ
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7. A method of reducing the glare associated with a diffractive, multifocal ophthalmic lens having a distance focus and a near focus, the diffractive, multifocal ophthalmic lens having a plurality of echelettes located at a radius ri from an optical axis, each of the echelettes having a step height, the method comprising the step of providing an apodization zone that gradually shifts the energy balance between the near focus and the distance focus by progressively increasing the reduction in the step height of each echelette by an apodization factor, ƒ
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apodize, as the radius ri from the optical axis increases according to the following equation;
##EQU12## where;
rin =ri at the inner boundary of the apodization zonerout =ri at the outer boundary of the apodization zone approx. 3≦
exp≦
approx. 6.2.
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apodize, as the radius ri from the optical axis increases according to the following equation;
Specification