Modal sensor
First Claim
Patent Images
1. In a system which uses a point light source or laser emitting a beam for the purposes of interaction with an object, or of transmission, an apparatus for determining unwanted wavefront distortions, comprising:
- means for intercepting said beam for branching off a portion of the beam and deflecting it into a particular path which includes an axis;
means disposed for intercepting the branched-off beam and focusing the entire branched-off beam into a single particular zone along the axis;
means disposed in, or in the vicinity of, the particular zone for detecting a representation of a point-spread function of the focused beam and its distribution in a particular plane transversely to the axis; and
means connected to the means for detecting, for generating signals representing moments of the spread function, those moments being representative of the value of the aberration coefficients of the unwanted wavefront distortions, including tip, tilt, focus, and both astigmatisms.
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Abstract
Wave front distortions of a laser beam are detected by measuring the distribution of the point spread function of a focussed portion of that beam and by generating moments of that function representing tip, tilt, focus, and astigmatisms of the beam. Signals representing these moments can be used directly for correcting the distortions.
13 Citations
16 Claims
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1. In a system which uses a point light source or laser emitting a beam for the purposes of interaction with an object, or of transmission, an apparatus for determining unwanted wavefront distortions, comprising:
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means for intercepting said beam for branching off a portion of the beam and deflecting it into a particular path which includes an axis; means disposed for intercepting the branched-off beam and focusing the entire branched-off beam into a single particular zone along the axis; means disposed in, or in the vicinity of, the particular zone for detecting a representation of a point-spread function of the focused beam and its distribution in a particular plane transversely to the axis; and means connected to the means for detecting, for generating signals representing moments of the spread function, those moments being representative of the value of the aberration coefficients of the unwanted wavefront distortions, including tip, tilt, focus, and both astigmatisms. - View Dependent Claims (2)
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3. In a system which uses a point light source or laser emitting a beam for the purpose of interaction with an object or for the purpose of long-range transmission, an apparatus for determining unwanted wavefront distortions, comprising:
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means for intercepting said beam for branching off a portion of the beam and deflecting the entire branched-off portion into a single particular path which includes an axis; means disposed for intercepting the branched-off beam and focusing the beam into a particular zone along the axis; a detector array disposed in a plane on or near said zone and including at least a plurality of radiation detectors arranged in a first direction in the plane and a plurality of radiation detectors arranged in a second direction in the plane; means connected to the detectors of the array for receiving signals representing radiation intensity as detected by the respective detectors; and means connected to provide signals, representing a relative location of the centroids of the intensities along, respectively, the first and second directions in the plane and the respective width of intensity spreading in the first and second directions and at 45°
to the first and second directions, said signal means also summing and comparing said moments to produce a measure of the aberration coefficients of tip, tilt, focus, and both astigmatisms.
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4. In a system which uses a point light source or laser, emitting a beam for the purpose of interaction with an object or for the purpose of long-range transmission, and to be received by a receiver means, an apparatus for reducing or eliminating unwanted wavefront distortions as effective in the receiver means, comprising:
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means for intercepting said beam for branching off a portion of the beam and deflecting the entire branched-off portion into a single particular path which includes an axis; a detector array disposed in a plane in or near said zone and including at least a plurality of radiation detectors arranged in a first direction in the plane and a plurality of radiation detectors arranged in a second direction in the plane, for detecting representations of a point-spread function of the focused beam along said first and second directions in said plane; means connected to the detectors to provide signals, representing the first-order and second-order moments of the point-spread function, separately, for the first and second directions and at 45°
to the first and second directions, the first-order and second-order moments being compared to produce a measure of the aberration coefficients of tip, tilt, focus, and both astigmatisms; andmeans connected to the signal means for reducing, or even eliminating, the distortions as they would be effective in the receiver means. - View Dependent Claims (5, 6, 7)
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8. In a system which uses a point light source or laser emitting a beam for the purpose of interactions with an object, or for the purpose of transmission, an apparatus for determining unwanted wavefront distortions, comprising:
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means for intercepting said beam for branching off a portion of the beam and deflecting it into a particular path which includes an axis; means disposed for intercepting the branched-off beam and focusing the entire branched-off beam into a single particular zone along the axis; the beam as focused resulting in an intensity distribution in said zone in accordance with a point-spread function; a detector array including a plurality of detector cells and disposed in a plane near or in the zone, the cells being arranged along particular directions; circuit means connected to the cells of the array and receiving therefrom signals representing received radiation intensities; and means connected to receive the signals for processing the signals, providing a first-order moment and second-order moment of the point-spread function, the moments being representative of the aberration coefficients of tip, tilt, focus, and both astigmatisms.
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9. In a system which uses a point light source or laser, emitting a beam for the purpose of interaction with an object or for the purpose of long-range transmission, and to be received by a receiver means, an apparatus for reducing or eliminating unwanted wavefront distortions as effective in the receiver means, comprising:
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means for intercepting said beam for branching off a portion of the beam and deflecting it into a particular path which includes an axis; means disposed for intercepting the branched-off beam and focusing the entire branched-off beam into a single particular zone along the axis; detector means disposed at least near the said focal zone for detecting a point-spread function of focused radiation, and at least along one line transversely to the axis; processing means connected to the detector means and generating signals, representing first- and second-order moments of the point-spread function as detected, including the aberration coefficients of tip, tilt, focus, and both astigmatisms; and means connected to the processing means for reducing the effect of unwanted distortions as effective in the receiver means. - View Dependent Claims (10)
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11. A method of correcting the properties of a point light source laser beam, particularly as to the planarity or the wavefronts of the beam as received following emission thereof, comprising the steps of:
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deflecting a portion of said beam; focusing the entire deflected portion of the beam into a single particular zone; detecting at least one representation of the point-spread function of the focused beam in or near said zone; calculating first- and second-order moments of said point-spread function, the moments representing the aberration coefficients of tip, tilt, focus, and both astigmatisms, and generating signals representative thereof; and
using said signals to correct the effect of wavefront distortions of the laser beam. - View Dependent Claims (12, 13, 14)
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15. In a system which uses a point light source or laser emitting a beam for purposes of transmitting the energy through a distorting medium or is distorted at the source, an apparatus for determining certain characteristics of the wavefront distortions, comprising:
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means disposed to focus a portion of the beam branched-off, means disposed at or near the focal plane for detection of the distribution of the radiation in a plane transverse to the optical axis, and means connected to the output of the detection array to calculate certain moments of the radiation distributions which are found to be proportioned to the value of certain aberration coefficients of the wavefront distortions.
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16. In a system which uses a point source of light or a laser emitting a beam, whose phase front is distorted or becomes distorted by means of propagation through a turbulent media, an apparatus for determining certain of the wavefront distortions, comprising;
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means disposed for focusing a portion of the beam branched-off for detection purposes; a detector array disposed in a plane at or near the focal spot of the lens, which individual detectors located in a two dimensional array in a plane perpendicular to the optical axis; means connected to the detectors in the array for receiving the detector signals representing the light intensities at the various detector locations; first circuit means connected to provide signals representing the relative locations of the centroid of the intensity pattern in both transverse directions in the plane; second circuit means connected to provide a signal proportional to the radial spreading of the intensity pattern; third circuit means connected to provide signals proportional to the relative spreading between the 0° and
90°
axis, and the relative spreading between the 45° and
135°
axis; andmeans for proportioning these signals which are proportional to the aberration coefficients of tip, tilt, focus and 0° and
45°
astigmatism.
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Specification
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Current AssigneeRockwell International Corporation
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Original AssigneeRockwell International Corporation
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InventorsMassie, Norbert A.
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Primary Examiner(s)ROSENBERGER, RICHARD A
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Application NumberUS06/149,608Time in Patent Office825 DaysField of Search356/121, 356/354, 356/371, 350/310, 350/295US Class Current356/521CPC Class CodesG01J 9/00 Measuring optical phase dif...
