Fourier-transform holography by pseudo-random phase shifting
First Claim
1. Apparatus for forming a hologram of an array of beams of electromagnetic radiation on a Fourier transform plane, comprising:
- a pseudo-random phase mask receptive in use of a beam of electromagnetic radiation and comprised of phase shifting areas arranged in a pattern of rows and columns, there being an approximately equal number of phase shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N, where m ranges from 1 to N, and the phase difference between orthogonally adjacent phase shifting areas is 360°
/N, whereby the power spectrum of said phase-shifted beam on the Fourier transform plane distributes in two orthogonal directions from the center maximum of the power spectrum; and
means for recording a hologram of the Fourier transform of said beam at said center maximum.
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Abstract
A phase mask comprised of a rectangular array of phase shifting areas arranged in a pseudo-random pattern is illuminated with a beam of electromagnetic radiation. The array of pseudo-randomly phase shifted beams is focused on a Fourier transform plane on which the power spectrum of the beams distributes in two orthogonal directions from its center maxima. The phase shifting areas are arranged in such a manner that there is an approximately equal number of phase shifts for each of the different phase shifting areas with a constant phase relation between orthogonally adjacent phase shifting areas. The center maxima of the spectrum is confined to a rectangular-shaped area and uniformly distributed by suitably selecting the number of different phase shifts. Coherent noise on the reconstructed image is effectively eliminated.
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Citations
23 Claims
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1. Apparatus for forming a hologram of an array of beams of electromagnetic radiation on a Fourier transform plane, comprising:
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a pseudo-random phase mask receptive in use of a beam of electromagnetic radiation and comprised of phase shifting areas arranged in a pattern of rows and columns, there being an approximately equal number of phase shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N, where m ranges from 1 to N, and the phase difference between orthogonally adjacent phase shifting areas is 360°
/N, whereby the power spectrum of said phase-shifted beam on the Fourier transform plane distributes in two orthogonal directions from the center maximum of the power spectrum; andmeans for recording a hologram of the Fourier transform of said beam at said center maximum. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A pseudo-random phase mask for use in recording a Fourier transform hologram, comprising:
- a light transmissive substrate comprised of an array of phase shifting areas, there being an approximately equal number of phase-shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N, where m ranges from 1 to N, and the phase difference between orthogonally adjacent phase shifting areas is 360°
/N. - View Dependent Claims (10)
- a light transmissive substrate comprised of an array of phase shifting areas, there being an approximately equal number of phase-shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
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11. A pseudo-random phase mask comprising, a pair of first and second light transmissive substrates in overlapping relationship, each said substrate comprised of a striped array of phase shifting areas, there being an approximately equal number of phase shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
- /N, where m ranges from 1 to N, and the phase difference between adjacent phase shifting areas is 360°
/N, said first and second substrates being overlapped such that the stripes of said arrays intersect perpendicularly to each other. - View Dependent Claims (12)
- /N, where m ranges from 1 to N, and the phase difference between adjacent phase shifting areas is 360°
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13. A pseudo-random phase mask comprising, a first light transmissive substrate comprised of a random square array of an approximately equal number of zero and 180°
- phase shifting areas and a second light transmissive substrate disposed on said first substrate and comprised of a regular square array of an equal number of two phase shifting areas each having a phase difference of 90°
with respect to said zero and 180°
phase-shifting areas and arranged in a one-to-one correspondence with the areas of said first substrate.
- phase shifting areas and a second light transmissive substrate disposed on said first substrate and comprised of a regular square array of an equal number of two phase shifting areas each having a phase difference of 90°
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14. A light diffuser for use in recording a Fourier transform hologram, comprising:
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an aperture mask having rectangular apertures arranged in a pattern of rows and columns; and a pseudo-random phase mask comprised of an array of phase shifting areas that have a one-to-one correspondence with the array of said rectangular apertures, there being an approximately equal number of phase shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N, where m ranges from 1 to N, and the phase difference between orthogonally adjacent phase shifting areas is 360°
/N. - View Dependent Claims (15)
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16. A method of making an array of phase shifts in a pseudo-random pattern, comprising:
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providing a first array of phase shifts by arranging different sets of phase shifting stripes in succession, such that there is an approximately equal number of phase shifting stripes for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N where m ranges from 1 to N, and the phase difference between adjacent phase shifting stripes is 360°
/N;providing a second array of phase shifts by arranging different sets of phase shifting stripes in succession such that there is an approximately equal number of phase shifting stripes for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N where m ranges from 1 to N, and the phase difference between adjacent phase shifting stripes is 360°
/N; andoverlying said first and second arrays of phase shifting stripes one upon the other such that the phase shifting stripes of the first and second arrays are at right angles to each other.
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17. A method of making an array of phase shifts in a pseudo-random pattern, comprising:
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etching the major surface of a light transmissive substrate to different depths to form different sets of phase shifting stripes in succession such that there is an approximately equal number of phase shifting stripes for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N where m ranges from 1 to N, and the phase difference between adjacent phase shifting stripes is 360°
/N; andrepeating the step of (a) on the same major surface of the light transmissive substrate to form additional phase shifting stripes which intersect the phase shifting stripes formed by the step (a) at right angles.
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18. Apparatus for forming a Fourier transform hologram of an array of beams of electromagnetic radiation on a Fourier transform plane, comprising:
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a pseudo-random phase mask receptive in use of a beam of electromagnetic radiation and comprised of phase-shifting areas, there being an approximately equal number of phase shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N, where m ranges from 1 to N, and the phase difference between orthogonally adjacent phase shifting areas is 360°
/N; andmeans for recording a hologram of the Fourier transform of said phase mask.
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19. A pseudo-random phase mask for use in recording a Fourier transform hologram, comprising:
- a light transmissive substrate comprised of a plurality of phase shifting areas, there being an approximately equal number of phase-shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
/N, where m ranges from 1 to N, and the phase difference between adjacent phase shifting areas is 360°
/N.
- a light transmissive substrate comprised of a plurality of phase shifting areas, there being an approximately equal number of phase-shifting areas for each of the different phase shifts, wherein the number of different phase shifts is N which is at least three and each of the different phase shifts is one of the multiples of m360°
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20. Apparatus for forming a hologram of an array of beams of electromagnetic radiation on a Fourier transform plane, comprising:
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a pseudo-random phase mask, receptive in use of a beam of electromagnetic radiation, comprising first and second arrays of phase shifting stripes which intersect at right angles to each other and each of which comprises an approximately equal number of phase shifting stripes for each of N different phase shifts of m360°
/N where m ranges from 1 to N and N is at least three, wherein each of said arrays comprises alternate stripes differing in phase by 360°
/N and intermediate stripes each intermediate a corresponding pair of the alternate stripes and having a phase shift equal to the mean value of the phase shifts of the corresponding pair of alternate stripes, whereby a power spectrum of a phase-shifted beam of the electromagnetic radiation on the Fourier transform plane distributes in two orthogonal directions from a center maximum of the power spectrum; andmeans for recording a hologram of the Fourier transform of said beam at said center maximum. - View Dependent Claims (21)
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22. A pseudo-random phase mask comprising, a first and a second light transmissive substrate overlapping each other and each comprised of an array of phase shifting stripes and relatively positioned so that the respective arrays of phase shifting stripes intersect at right angles to each other, wherein each of said arrays comprises an approximately equal number of phase shifting stripes for each of N different phase shifts of m360°
- /N where m ranges from 1 to N and N is at least three, and wherein each of said arrays comprises alternate stripes differing in phase by 360°
/N and intermediate stripes each intermediate a corresponding pair of the alternate stripes and having a phase shift equal to the mean value of the phase shifts of the corresponding pair of alternate stripes.
- /N where m ranges from 1 to N and N is at least three, and wherein each of said arrays comprises alternate stripes differing in phase by 360°
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23. A light diffuser for use in recording a Fourier transform hologram, comprising:
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an aperture mask having rectangular apertures arranged in a pattern of rows and columns, and a pseudo-random phase mask comprised of an array of phase shifting areas having a one-to-one correspondence with the array of said rectangular apertures, said array of phase shifting areas having an approximately equal number of alternate phase shifting areas for each of N different phase shifts of m360°
/N where m ranges from 1 to N and N is at least three, wherein the alternate ones of the phase shifting areas differ in phase by 360°
/N, and intermediate phase shifting areas each intermediate a corresponding pair of the alternate phase shifting areas and having a phase shift equal to the mean value of the phase shifts of the corresponding pair of alternate phase shifting areas.
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Specification