Outcoupling grating for augmented reality system

What is claimed is: 1. An eyepiece for projecting an image to an eye of a viewer, the eyepiece comprising: a waveguide having a surface and configured to propagate light therein; and a diffractive optical element optically coupled to the waveguide, the diffractive optical element including: a plurality of first ridges protruding from the surface of the waveguide and arranged as a periodic array having a period, each of the plurality of first ridges having a first height in a direction perpendicular to the surface of the waveguide and a first width in a direction of the period; and a plurality of second ridges, each of the plurality of second ridges protruding from a respective first ridge and having a second height greater than the first height and a second width less than the first width; wherein the diffractive optical element is configured to diffract a first portion of the light propagating in the waveguide toward the eye as a first order reflection, and to diffract a second portion of the light propagating in the waveguide away from the eye as a first order transmission. 2. The eyepiece of claim 1 wherein the first width ranges from 0.4 times the period to 0.6 times the period. 3. The eyepiece of claim 1 wherein the second width is less than 0.25 times the period. 4. The eyepiece of claim 1 wherein a ratio of the second height and the first height ranges from 8:7 to 8:3. 5. The eyepiece of claim 1 wherein the first width and the second width are selected such that the diffractive optical element has a first order reflection efficiency greater than a first order transmission efficiency. 6. The eyepiece of claim 5 wherein a ratio of the first order reflection efficiency and the first order transmission efficiency is greater than 2. 7. The eyepiece of claim 1 wherein the diffractive optical element is configured to diffract a third portion of the light propagating in the waveguide in a direction substantially opposite to a direction of incidence as a second order reflection, and the first width and the second width are selected such that the diffractive optical element has a second order reflection efficiency less than one percent. 8. An eyepiece for projecting an image to an eye of a viewer, the eyepiece comprising: a waveguide having a surface and configured to propagate light therein; and a diffractive optical element optically coupled to the waveguide, the diffractive optical element including: a plurality of first ridges protruding from the surface of the waveguide and arranged as a periodic array having a period, each respective first ridge having a respective first width in a direction of the period that varies as a function of a position of the respective first ridge in the direction of the period; and a plurality of second ridges, each respective second ridge protruding from a corresponding first ridge and having a respective second width that is less than a corresponding first width of the corresponding first ridge, each respective second width varying as a function of the position of the corresponding first ridge in the direction of the period; wherein the diffractive optical element is configured to diffract a first portion of the light propagating in the waveguide toward the eye as a first order reflection, and to diffract a second portion of the light propagating in the waveguide away from the eye as a first order transmission. 9. The eyepiece of claim 8 wherein each first ridge has a first height, and each second ridge has a second height greater than the first height. 10. The eyepiece of claim 9 wherein the first height ranges from 45 nm to 65 nm, and the second height ranges from 70 nm to 80 nm. 11. The eyepiece of claim 8 wherein each respective first width of the respective first ridge and each respective second width of the respective second ridge are varied such that a first order reflection efficiency of the diffractive optical element varies as a function of a position across the surface of the waveguide in the direction of the period. 12. The eyepiece of claim 11 wherein the first order reflection efficiency of the diffractive optical element increases from a first edge of the diffractive optical element to a second edge of the diffractive optical element. 13. The eyepiece of claim 12 wherein the first order reflection efficiency of the diffractive optical element increases substantially linearly from the first edge of the diffractive optical element to the second edge of the diffractive optical element. 14. The eyepiece of claim 11 wherein the first order reflection efficiency of the diffractive optical element increases from a center portion of the diffractive optical element toward an edge of the diffractive optical element on either side of the center portion. 15. An eyepiece for projecting an image to an eye of a viewer, the eyepiece comprising: a waveguide having a surface and configured to propagate light therein; and a diffractive optical element optically coupled to the waveguide, the diffractive optical element including: a plurality of first ridges protruding from the surface of the waveguide and arranged as a periodic array having a period, each respective first ridge having a respective first width in a direction of the period; and a plurality of second ridges, each respective second ridge protruding from a corresponding first ridge and having a respective second width that is less than a corresponding first width of the corresponding first ridge; wherein a ratio of the respective second width of the respective second ridge to the corresponding first width of the corresponding first ridge varies as a function of a position of the corresponding first ridge in the direction of the period, and wherein the diffractive optical element is configured to diffract a first portion of the light propagating in the waveguide toward the eye as a first order reflection, and to diffract a second portion of the light propagating in the waveguide away from the eye as a first order transmission. 16. The eyepiece of claim 15 wherein the ratio of the respective second width of the respective second ridge to the corresponding first width of the corresponding first ridge varies as the function of the position of the corresponding first ridge in the direction of the period such that a first order reflection efficiency of the diffractive optical element varies as a function of a position across the surface of the waveguide in the direction of the period. 17. The eyepiece of claim 16 wherein the first order reflection efficiency of the diffractive optical element increases from a first edge of the diffractive optical element to a second edge of the diffractive optical element. 18. The eyepiece of claim 17 wherein the first order reflection efficiency of the diffractive optical element increases substantially linearly from the first edge of the diffractive optical element to the second edge of the diffractive optical element. 19. The eyepiece of claim 16 the first order reflection efficiency of the diffractive optical element increases from a center portion of the diffractive optical element toward an edge of the diffractive optical element on either side of the center portion. 20. The eyepiece of claim 15 wherein each first ridge has a first height, and each second ridge has a second height greater than the first height.