Diffractive multifocal lens having radially varying light distribution

US 7,871,162 B2
Filed: 04/24/2008
Issued: 01/18/2011
Est. Priority Date: 04/24/2008
Status: Active Grant

First Claim

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1. A multifocal ophthalmic lens, comprising:

an anterior face with an anterior refractive profile and a posterior face with a posterior refractive profile, the faces disposed about an optical axis;

a diffractive profile imposed on one of the refractive profiles, the diffractive profile comprising a plurality of echelettes with associated step heights that are substantially equal to one another, the diffractive profile characterized by a continuous function over the plurality of echelettes wherein the radii of curvature of transition zones are larger than the wavelength of incoming light in order to reduce light scatter, and the diffractive profile having, in the visible waveband, a zeroth diffractive order and a first diffractive order having a diffraction add power;

the zeroth and first diffraction orders having diffraction efficiencies which change with radius from the optical axis.

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Abstract

The present invention provides improved ophthalmic lenses and methods for their design and use. Monofocal and multifocal diffractive ophthalmic lenses having reduced light scatter and/or improved light energy distribution properties are provided. These properties are provided by the diffractive profiles of the invention, often having subtlely shaped echelettes with appropriately curving profiles. Light scatter may be generated by the sharp corners associated with vertical steps between adjacent conventional diffractive echelettes. Smooth diffractive profiles of the invention reduce light scatter. Light energy directed towards non-viewing diffractive orders may have a unwanted effects on vision quality. Diffractive profiles of the invention may limit the light energy in certain, selected orders, thereby improving viewing quality and mitigating unwanted effects such as dysphotopsia. Diffractive profiles of the invention can also vary the light energy distributed between individual echelettes, providing additional advantages in various viewing situations.

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13 Claims

1. A multifocal ophthalmic lens, comprising:
- an anterior face with an anterior refractive profile and a posterior face with a posterior refractive profile, the faces disposed about an optical axis;
  
  a diffractive profile imposed on one of the refractive profiles, the diffractive profile comprising a plurality of echelettes with associated step heights that are substantially equal to one another, the diffractive profile characterized by a continuous function over the plurality of echelettes wherein the radii of curvature of transition zones are larger than the wavelength of incoming light in order to reduce light scatter, and the diffractive profile having, in the visible waveband, a zeroth diffractive order and a first diffractive order having a diffraction add power;
  
  the zeroth and first diffraction orders having diffraction efficiencies which change with radius from the optical axis.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The multifocal ophthalmic lens of claim 1, wherein the anterior face and the posterior face define a clear aperture.
  - 3. The multifocal ophthalmic lens of claim 1, wherein the echelettes comprise a central echelette and N additional echelettes, the N additional echelettes comprising a first echelette disposed about the central echelette, a second echelette disposed about the first echelette, up to an Nth echelette disposed about an (N−
    - 1)th echelette.
  - 4. The multifocal ophthalmic lens of claim 3, wherein the zeroth and first diffraction orders having diffraction efficiencies which change with the number of surrounding echelettes.
  - 5. The multifocal ophthalmic lens of claim 3, wherein N is at least 4 and the zeroth and first diffraction orders having diffraction efficiencies which change depending on the number of surrounding echelettes.
  - 6. The multifocal ophthalmic lens of claim 1, wherein any one of the step heights does not vary by more than 20 percent from an average of all the step heights.
  - 7. The multifocal ophthalmic lens of claim 1, wherein the diffraction efficiency of the zeroth diffractive order increases with increasing radius from the optical axis.

8. A method for viewing with a diffractive ophthalmic lens using an eye of a patient, the ophthalmic lens comprising a plurality of echelettes with associated step heights that are substantially equal to one another, the echelettes each having a characteristic profile and defining a diffractive surface, the diffractive surface characterized by smooth, continuously curving transition zones between optical zones of adjacent echelettes wherein the radii of curvature of the transition zones are larger than the wavelength of incoming light in order to reduce light scatter, and the diffractive profile having, in the visible waveband, a zeroth diffractive order and a first diffractive order, the method comprising changing the diffractive efficiency of the first diffractive order of the echelettes with radius from the optical axis.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The method of claim 8, wherein changing the diffractive efficiency of the first diffractive order of each of the echelettes with radius from the optical axis comprises changing the profile of each of the echelettes with radius from the optical axis.
  - 10. The method of claim 8, wherein the echelettes comprise a central echelette and N additional echelettes, the N additional echelettes comprising a first echelette disposed about the central echelette, a second echelette disposed about the first echelette, up to an Nth echelette disposed about an (N−
    - 1)th echelette.
  - 11. The method of claim 10, wherein the zeroth and first diffraction orders having diffraction efficiencies which change with the number of surrounding echelettes.
  - 12. The method of claim 10, wherein N is at least 4 and the zeroth and first diffraction orders having diffraction efficiencies which change depending on the number of surrounding echelettes.
  - 13. The method of claim 8, wherein any on of the step heights does not vary by more than 20 percent from an average of all the step heights.

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Current Assignee
Amo Groningen B.V (Johnson & Johnson)
Original Assignee
Amo Groningen B.V (Johnson & Johnson)
Inventors
Weeber, Henk A.
Primary Examiner(s)
MANNO, JESSICA S

Application Number

US12/109,251
Publication Number

US 20090268158A1
Time in Patent Office

999 Days
Field of Search

351/177
US Class Current

351/177
CPC Class Codes

A61F 2/1618   Multifocal lenses

A61F 2/1654   Diffractive lenses

G02C 2202/20   Diffractive and Fresnel len...

G02C 7/042   Simultaneous type

G02C 7/044   Annular configuration, e.g....

Diffractive multifocal lens having radially varying light distribution

First Claim

3 Assignments

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Abstract

109 Citations

13 Claims

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Diffractive multifocal lens having radially varying light distribution

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

109 Citations

13 Claims

Specification

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Solutions

Use Cases

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