Diffractive optical elements with graded edges

What is claimed: 1. An optical system, comprising: a substrate of optical material configured as a waveguide; a first diffractive optical element (DOE) disposed on the waveguide and configured as an in-coupling grating to receive, as an input, one or more optical beams that propagate in the first DOE and exit at a trailing edge of the first DOE; and a second DOE disposed on the waveguide and configured for pupil expansion of the one or more optical beams along a first direction, in which the trailing edge of the first DOE is located on the waveguide at an interface with a leading edge of the second DOE, wherein the one or more optical beams exiting at the trailing edge, enter at the leading edge of the second DOE, and wherein the trailing edge and leading edge are graded so that a grating height of each of the first DOE and the second DOE increases as a function of distance from the interface, and wherein the grating height increases linearly as a function from the distance from the interface so that profiles of the graded leading and trailing edges are wedge-shaped. 2. The optical system of claim 1 further including a third DOE disposed on the waveguide and configured for pupil expansion of the optical beams along a second direction, and further configured as an out-coupling grating to couple, as an output from the waveguide, one or more optical beams with expanded pupil relative to the input. 3. The optical system of claim 1 in which the grating height in the first DOE decreases approximately linearly from a full height upstream from the trailing edge to a shallow height at the trailing edge of the first DOE. 4. The optical system of claim 1 in which the grating height in the first DOE decreases approximately linearly from a full height upstream from the trailing edge to zero height at the trailing edge of the first DOE. 5. The optical system of claim 1 in which the grating height in the second DOE increases approximately linearly from a shallow height at the leading edge to a full height downstream from the leading edge. 6. The optical system of claim 1 in which either the first DOE or second DOE is a straight diffraction grating or a slanted diffraction grating. 7. The optical system of claim 1 in which the one or more optical beams received as the input emanate as a virtual image produced by a micro-display or imager. 8. The optical system of claim 1 , wherein ends opposite the trailing edge and leading edge of the first and second DOEs, respectively, have gratings of a greater height than at the respective trailing and leading edges.