Method and apparatus for providing a polarization selective holographic waveguide device
First Claim
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1. A waveguide apparatus, comprising:
- disposed in at least one layer;
an input coupler comprising a first linear slant grating and a second linear slant grating such that the first linear slant grating and the second linear slant grating form a crossed slant grating;
a first fold grating;
a second fold grating;
an output coupler comprising a third linear slant grating and a fourth linear slant grating such that the third linear slant grating and the fourth linear slant grating form a crossed slant grating; and
a source of light optically coupled to said waveguide providing at least first and second polarizations of said light and at least one wavelength along an input path;
wherein said input coupler is configured to cause said first polarization light to travel along a first total internal reflection (TIR) path and said second polarization light to travel along a second TIR path; and
wherein the first linear slant grating and the third linear slant grating are configured to only diffract the first polarization; and
wherein the second linear slant grating and the fourth linear slant grating are configured to only diffract the second polarization; and
wherein said third grating is configured to diffract the first polarization light out of said waveguide into an output path, wherein said fourth grating is configured to diffract the second polarization light out of said waveguide into said output path.
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Abstract
A waveguide apparatus, comprises: disposed in at least one layer: an input coupler; a first fold grating; a second fold grating; an output coupler; and a source of light optically coupled to the waveguide providing at least first and second polarizations of the light and at least one wavelength. The input coupler is configured to cause the first polarization light to travel along a first total internal reflection (TIR) path and the second polarization light to travel along a second TIR path.
1449 Citations
20 Claims
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1. A waveguide apparatus, comprising:
- disposed in at least one layer;
an input coupler comprising a first linear slant grating and a second linear slant grating such that the first linear slant grating and the second linear slant grating form a crossed slant grating; a first fold grating; a second fold grating; an output coupler comprising a third linear slant grating and a fourth linear slant grating such that the third linear slant grating and the fourth linear slant grating form a crossed slant grating; and a source of light optically coupled to said waveguide providing at least first and second polarizations of said light and at least one wavelength along an input path; wherein said input coupler is configured to cause said first polarization light to travel along a first total internal reflection (TIR) path and said second polarization light to travel along a second TIR path; and wherein the first linear slant grating and the third linear slant grating are configured to only diffract the first polarization; and wherein the second linear slant grating and the fourth linear slant grating are configured to only diffract the second polarization; and wherein said third grating is configured to diffract the first polarization light out of said waveguide into an output path, wherein said fourth grating is configured to diffract the second polarization light out of said waveguide into said output path. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- disposed in at least one layer;
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17. A method of propagating light of more than one polarization component comprising the steps of:
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a) providing a waveguide containing an input grating comprising crossed first and second slant gratings; and
first and second fold gratings; and
an output grating comprising crossed third and fourth slant gratings;b) coupling a source of light to said waveguide; c) said first slant grating diffracting only a first polarization state of light into a first waveguide path; d) said second slant grating diffracting only a second polarization state of light into a second waveguide path; e) said third slant grating diffracting only the first polarization state of light into an output path; f) said fourth slant grating diffracting only the second polarization state of light into the output path; and g) said first, second, third, and fourth slant gratings being linear.
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18. A method of propagating light of more than one polarization component comprising the steps of:
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a) providing a waveguide containing an input grating comprising crossed first and second slant gratings;
first and second fold gratings; and
an output grating comprising crossed third and fourth slant gratings;b) coupling a source of light to said waveguide; c) said first slant grating diffracting a first polarization state of said light into a first waveguide path; d) said second slant grating diffracting a second polarization state of said light into a second waveguide path; e) said first fold grating diffracting light from said first waveguide path into a third waveguide path to said output grating; f) said second fold grating diffracting light in said second waveguide path into a fourth waveguide path to said output grating; g) said third slant grating diffracting only the first polarization state of said light in said third waveguide path out of said waveguide along an output path; and h) said fourth slant grating diffracting only the second polarization state of said light in said fourth waveguide path out of said waveguide along the output path; i) said first, second, third, and fourth slant gratings being linear.
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19. A method of propagating light of more than one polarization component comprising the steps of:
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a) providing a waveguide containing an input grating comprising crossed first and second gratings;
first and second fold gratings; and
an output grating comprising crossed third and fourth gratings;b) coupling a source of light of first and second colors to said waveguide; c) said first grating diffracting a first color, first polarization state of said light into said first waveguide path; d) said second grating diffracting a second color, second polarization state of said light into a second waveguide path; e) said first fold grating diffracting light from said first waveguide path into a third waveguide path to said output grating; f) said second fold grating diffracting light in said second waveguide path into a fourth waveguide path to said output grating; g) said third grating diffracting only the first polarization state of said light in said third waveguide path out of said waveguide along an output path; h) said fourth grating diffracting only the first polarization state of said light in said fourth waveguide path out of said waveguide along said output path; and i) said first, second, third, and fourth gratings being linear.
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20. A method of propagating light of more than one polarization component comprising the steps of:
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a) providing a waveguide comprising a first substrate containing an input grating comprising linear crossed first and second slant gratings, first and second fold gratings, and an output grating comprising linear crossed third and fourth slant gratings;
a second substrate containing an input grating comprising crossed fifth and sixth slant gratings; and
a half wave retarder film sandwiched by the input gratings;b) coupling a source of light of first and second colors to said waveguide; c) said the first and fifth slant gratings diffracting only a first color, first polarization state of said light into a first waveguide path; d) said second and sixth slant gratings diffracting only a second color, second polarization state of said light into a second waveguide path; e) said first fold grating diffracting light in said first waveguide path into a third waveguide path to said output grating; f) said second fold grating diffracting light in said second waveguide path into a fourth waveguide path to said output grating; g) said third slant grating diffracting only the first polarization state of said light in said third waveguide path out of said waveguide along an output path; h) said fourth slant grating diffracting only the second polarization state of said light in said fourth waveguide path out of said waveguide along the output path.
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Specification