1. A display for displaying an image to a viewer, the display comprising:

(a) an image generator having an illumination subsystem generating illumination of at least a first color, said image generator employing said illumination to generate an image;

(b) projection optics for projecting illumination from the image for display to the viewer, said projection optics comprising:

(i) collimating optics for collimating said illumination from said image generator to generate a collimated image, and

(ii) a light-guide optical element having a pair of parallel major external surfaces for guiding the collimated image within the light-guide optical element by internal reflection, the light-guide optical element having a coupling-out configuration for redirecting at least part of the collimated image towards the viewer, wherein said illumination subsystem comprises a first laser generating a first laser beam of the first color with a first polarization and a second laser generating a second laser beam of the first color with a second polarization, said first and second polarizations being orthogonal at at least one location within the projection optics.

2. The display of claim 1, wherein said first and second lasers are two of a set of at least three lasers of said illumination subsystem generating laser beams of the first color, said at least three lasers having polarizations that are mutually orthogonal at at least one location within the projection optics.

3. The display of claim 1, wherein said first laser beam and said second laser beam are deployed to generate side-by-side beams with mutually-orthogonal polarizations.

4. The display of claim 1, wherein said first laser beam and said second laser beam are combined into a single beam by a polarization beam combiner of said illumination subsystem to form a single beam containing two orthogonal polarizations.

5. The display of claim 1, wherein said first laser beam and said second laser beam have respectively a first wavelength and a second wavelength, said first and second wavelengths differing by less than 5%, and wherein said projection optics comprises a length of birefringent material configured to differentially rotate said first and second polarizations from a parallel state to a substantially orthogonal state.

6. The display of claim 5, wherein said image generator comprises a polarization modifying spatial light modulator illuminated by said first and second laser beams.

7. The display of claim 6, wherein said image generator further comprises a scanning optical arrangement comprising at least one scanning mirror, said scanning arrangement being deployed for generating a scanning motion of said first and second laser beams in at least one direction so as to sequentially illuminate different regions of said spatial light modulator.

8. The display of claim 5, wherein said projection optics comprises collimating optics for generating a collimated image and a light-guide optical element for conveying the collimated image to the viewer, wherein said birefringent material is deployed in a light path from said collimating optics to said light-guide optical element.

9. The display of claim 8, wherein said collimating optics comprises at least one polarized beam splitter.

10. The display of claim 5, wherein said birefringent material is a block of quartz crystal.

11. The display of claim 1, wherein said image generator further comprises a scanning optical arrangement comprising at least one scanning mirror, said scanning arrangement being deployed for generating a scanning motion of first and second laser beams in at least one direction.

12. The display of any one of claims 1-11, wherein said illumination subsystem further comprises a third laser and a fourth laser generating laser beams of a second color having orthogonal polarizations at said image, and a fifth laser and a sixth laser generating laser beams of a third color having orthogonal polarizations at said image.