Zoom lens systems with wavefront coding
First Claim
1. A zoom lens system for imaging incoming rays from an object over a range of ray angles, the incoming rays being characterized by at least a phase, the zoom lens system including an optical axis and being characterized by a plurality of modulation transfer functions (MTFs) corresponding at least to the range of ray angles, the zoom lens system comprising:
- a first optical group disposed along the optical axis, including a variable optical element exhibiting a variable focal length selectable between at least two distinct focal length values;
a wavefront coding compensator that alters at least the phase of the incoming rays such that the plurality of MTFs corresponding to the range of ray angles, for each one of the at least two distinct focal length values, are less sensitive to misfocus than MTFs of a corresponding system without the wavefront coding compensator;
a detector for generating image data that corresponds to an optical image formed by the system;
wherein said first optical group and said wavefront coding compensator have fixed positions along the optical axis relative to said detector and said object; and
a post processor for electronically processing the image data to render an in-focus electronic image of said object at the at least two distinct focal lengths.
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Accused Products
Abstract
Zoom lens systems and methods for imaging incoming rays over a range of ray angles are disclosed. The incoming rays are characterized by at least phase. The zoom lens system includes an optical axis and is characterized by a plurality of modulation transfer functions (MTFs) corresponding at least to the range of ray angles. The zoom lens system includes an optical group disposed along the optical axis, including at least one variable optical element that has a variable focal length selectable between at least two distinct focal length values. The optical group also includes a wavefront coding element. The wavefront coding element alters at least the phase of the incoming rays, such that the plurality of MTFs corresponding to the range of ray angles, for each one of the two distinct focal length values, are less sensitive to misfocus-like aberrations than a corresponding system without the wavefront coding element.
58 Citations
10 Claims
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1. A zoom lens system for imaging incoming rays from an object over a range of ray angles, the incoming rays being characterized by at least a phase, the zoom lens system including an optical axis and being characterized by a plurality of modulation transfer functions (MTFs) corresponding at least to the range of ray angles, the zoom lens system comprising:
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a first optical group disposed along the optical axis, including a variable optical element exhibiting a variable focal length selectable between at least two distinct focal length values; a wavefront coding compensator that alters at least the phase of the incoming rays such that the plurality of MTFs corresponding to the range of ray angles, for each one of the at least two distinct focal length values, are less sensitive to misfocus than MTFs of a corresponding system without the wavefront coding compensator; a detector for generating image data that corresponds to an optical image formed by the system; wherein said first optical group and said wavefront coding compensator have fixed positions along the optical axis relative to said detector and said object; and a post processor for electronically processing the image data to render an in-focus electronic image of said object at the at least two distinct focal lengths. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for imaging incoming rays from an object over a range of ray angles in a zoom lens system, the incoming rays including at least a phase, the zoom lens system including an optical axis, a variable optical element, a compensator, and a detector, each of the object, variable optical element and compensator having a fixed position relative to the detector, the variable optical element exhibiting a variable focal length selectable between at least two distinct focal length values, the zoom lens system being characterized by a plurality of modulation transfer functions (MTFs) corresponding at least to the range of ray angles and the distinct focal length values, the method comprising:
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modifying the phase of the incoming rays with the compensator such that the plurality of MTFs corresponding to the range of ray angles, for each of the distinct focal length values, are substantially similar in shape and in magnitude, generating optical image data at the detector from said rays, and electronically processing the image data to render an in-focus electronic image of said object at the at least two distinct focal lengths.
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Specification