Display comprising an optical waveguide and switchable diffraction gratings and method of producing the same

1 . An apparatus for producing an optical display comprising: an optical waveguide; a first switchable diffractive part switchable between a diffractive state for diffracting light of a first wavelength and a non-diffractive state, and arranged to receive light and selectively to diffract the light to a second diffractive part; said second diffractive part is arranged to receive from the first switchable diffractive part diffracted light of said first wavelength and non-diffracted light of a second wavelength other than the first wavelength and to diffract said light of either wavelength to a common angle for guided propagation along the optical waveguide; a third diffractive part optically coupled to the second diffractive part by the optical waveguide and arranged to receive and to diffract light of said first wavelength from the second diffractive part to a first angle for output from the optical waveguide and to receive and to diffract light of said second wavelength from the second diffractive part to a second angle for output from the optical waveguide; and a fourth switchable diffractive part switchable between a diffractive state for diffracting light of the first wavelength and a non-diffractive state, and arranged to receive and selectively to diffract said light from the third diffractive part into a common angle such that light of the first and second wavelengths occupy the same field of view. 2 . An apparatus according to claim 1 including a fifth switchable diffractive part switchable between a diffractive state for diffracting light of a third wavelength and a non-diffractive state, and arranged to receive light and selectively to diffract the light to the second diffractive part, wherein the second diffractive part is arranged to receive from the first switchable diffractive part diffracted light of said third wavelength and non-diffracted light of said second wavelength other than the third wavelength and to diffract said light of either wavelength to a common angle for guided propagation along the optical waveguide. 3 . An apparatus according to claim 2 in which the third diffractive part is arranged to receive and to diffract light of said third wavelength from the second diffractive part to a third angle for output from the optical waveguide and to receive and to diffract light of said second wavelength from the second diffractive part to said second angle for output from the optical waveguide, the apparatus including and a sixth switchable diffractive part switchable between a diffractive state for diffracting light of the third wavelength and a non-diffractive state, and arranged to receive light and selectively to diffract the light from the third diffractive part into a common angle such that light of the second and third wavelengths occupy the same field of view. 4 . An apparatus according to claim 1 in which at least one of said switchable diffractive parts is formed within or upon an optical substrate separate from said optical waveguide. 5 . An apparatus according to claim 1 in which at least one of said switchable diffractive parts is formed within or upon said optical waveguide. 6 . An apparatus according to claim 2 , in which the first switchable diffractive part at least partially overlaps the fifth switchable diffractive part. 7 . An apparatus according to claim 3 , in which the fourth switchable diffractive part at least partially overlaps the sixth switchable diffractive part. 8 . An apparatus according to claim 1 including a control unit arranged to control the first switchable diffractive part and the fourth diffractive part selectively to adopt the same one of said diffractive state and a non-diffractive state concurrently. 9 . An apparatus according to claim 3 including a control unit arranged to control the fifth switchable diffractive part and the sixth diffractive part selectively to adopt the same one of said diffractive state and a non-diffractive state concurrently. 10 . An apparatus according to claim 9 in which the control unit is arranged to control the fifth switchable diffractive part and the sixth switchable diffractive part selectively to each adopt concurrently the same one of said diffractive state and a non-diffractive state and to control concurrently the first switchable diffractive part and the fourth switchable diffractive part selectively to each adopt concurrently the same other one of said diffractive state and a non-diffractive state. 11 . An apparatus according to claim 8 in which the control unit is arranged to alternately switch said switchable diffractive parts between said diffractive state and a non-diffractive state cyclically. 12 . An apparatus according to claim 11 in which the control unit is arranged to switch said switchable diffractive parts cyclically including a condition such that all adopt a non-diffractive state concurrently. 13 . An apparatus according to claim 2 comprising a light source arranged to generate light according to said first, second and third wavelengths. 14 . An apparatus according to claim 2 in which a said switchable diffractive part is switchable to comprise a diffraction grating with a grating constant (d sg ) arranged to diffract said light of the first (or third) wavelength (λ i , i=1, 3) received thereby into the angular field of view of the second diffractive part, or within the angular field of view of the second diffractive part, in respect of light of the second wavelength (λ 2 ) wherein the second diffractive part has a grating constant (d wg ), and: d sg = λ i  d wg λ i - λ 2 . 15 . A method for producing an optical display comprising: providing an optical waveguide; providing a first switchable diffractive part switchable between a diffractive state for diffracting light of a first wavelength and a non-diffractive state, and receiving light and selectively diffracting the light to a second diffractive part; at said second diffractive part, receiving from the first switchable diffractive part diffracted light of said first wavelength and non-diffracted light of a second wavelength other than the first wavelength and diffracting said light of either wavelength to a common angle for guided propagation along the optical waveguide; providing a third diffractive part optically coupled to the second diffractive part by the optical waveguide and therewith receiving and diffracting light of said first wavelength from the second diffractive part to a first angle for output from the optical waveguide and receiving and diffracting light of said second wavelength from the second diffractive part to a second angle for output from the optical waveguide; and providing a fourth switchable diffractive part switchable between a diffractive state for diffracting light of the first wavelength and a non-diffractive state, and therewith receiving and selectively diffracting said l