Thin waveguide wavelength-selective projector

What is claimed is: 1. A low-mode waveguide comprising: a slab waveguide portion for propagating light therein, the slab waveguide portion comprising a core for guiding light therein and an out-coupler configured to out-couple the light at an angle to a plane of the slab waveguide portion; and a cladding comprising a liquid crystal (LC) cell defining a tunable cladding portion evanescently coupled to the slab waveguide portion, wherein the tunable cladding portion comprises saw-tooth shapes positioned in a plane parallel to the plane of the slab waveguide portion, wherein in operation, the LC cell defines an effective refractive index for the light propagating in the slab waveguide portion, wherein the effective refractive index varies in a direction of propagation of the light in the slab waveguide portion, whereby a direction of the light out-coupled by the out-coupler from the slab waveguide portion is varied along the direction of propagation of the light in the slab waveguide portion. 2. The low-mode waveguide of claim 1 , wherein the LC cell forms an acute angle with the slab waveguide portion. 3. The low-mode waveguide of claim 1 , wherein the slab waveguide portion further comprises: an underlayer between the LC cell and the core; wherein the underlayer is thin enough to ensure the evanescent coupling of the light to the LC cell. 4. The low-mode waveguide of claim 1 , wherein the saw-tooth shapes comprise a first array of triangular shapes extending laterally with respect to the direction of propagation of the light in the low-mode slab waveguide and forming a first angle with the direction of propagation of the light in the low-mode slab waveguide. 5. The low-mode waveguide of claim 4 , wherein the saw-tooth shapes further comprise a second array of triangular shapes disposed downstream of the first array, the triangular shapes of the second array extending laterally with respect to the direction of propagation of the light in the low-mode slab waveguide and forming a second angle with the direction of propagation of the light in the low-mode slab waveguide, wherein the first angle is different from the second angle. 6. The low-mode waveguide of claim 5 , wherein the first and second arrays of triangular shapes are configured for operation in a binary mode. 7. The low-mode waveguide of claim 1 , wherein the low-mode waveguide is a single-mode slab waveguide. 8. A low-mode waveguide comprising: an in-coupler for coupling light into the low-mode waveguide; a slab waveguide portion for propagating the light therein, the slab waveguide portion comprising: a core for guiding the light therein; and a cladding comprising a liquid crystal (LC) cell defining a tunable cladding portion evanescently coupled to the core, wherein the tunable cladding portion comprises saw-tooth shapes in a plane parallel to a plane of the slab waveguide portion, wherein in operation, the LC cell defines an effective refractive index for the light guided in the core, the effective refractive index varying in a direction of propagation of the light in the core, whereby a direction of the light propagating in the core is varied. 9. The low-mode waveguide of claim 8 , wherein the saw-tooth shapes comprise a first array of triangular shapes extending laterally with respect to the direction of propagation of the light in the core and forming a first angle with the direction of propagation of the light in the core. 10. The low-mode waveguide of claim 9 , wherein the saw-tooth shapes further comprise a second array of triangular shapes disposed downstream of the first array, the triangular shapes of the second array extending laterally with respect to the direction of propagation of the light in the core and forming a second angle with the direction of propagation of the light in the core, wherein the first angle is different from the second angle. 11. The low-mode waveguide of claim 10 , wherein the first and second triangular shapes are configured for operation in a binary mode. 12. The low-mode waveguide of claim 8 , wherein the low-mode waveguide is a single-mode slab waveguide. 13. A method of redirecting light in a low-mode slab waveguide, the method comprising: guiding the light in a core of the low-mode slab waveguide; and using a tunable cladding portion comprising liquid crystal (LC) cell evanescently coupled to the core to vary an effective refractive index for the light guided in the core, the effective refractive index varying in a direction of propagation of the light in the core, wherein the effective refractive index is varied by using an array of triangular shapes in the tunable cladding portion, whereby a direction of the light propagating in the core is varied. 14. The method of claim 13 , wherein the light is guided in the core in a single mode. 15. The method of claim 13 , wherein the effective refractive index is further varied by applying a voltage to the LC cell.