Optical elements for displays

The invention claimed is: 1. An optical element comprising: a light guide; an incoupler optically coupled to the light guide; and a beam splitter disposed in an optical path of a display beam representative of an image, the display beam comprising a first beam and a second beam, the second beam having a color associated with at least a wavelength that is longer than corresponding wavelengths associated with a corresponding color of the first beam, the beam splitter to split the display beam to form a first offspring beam comprising the first beam and a first portion of the second beam, and to form a second offspring beam comprising a second portion of the second beam, the first offspring beam and the second offspring beam concurrently incident upon the incoupler at a first incidence position and a second incidence position respectively, the first incidence position different than the second incidence position. 2. The optical element of claim 1 , wherein: the display beam further comprises a third beam; and the beam splitter is to split the display beam to form: the first offspring beam comprising the first beam, the first portion of the second beam, and the third beam; and the second offspring beam comprising the second portion of the second beam. 3. The optical element of claim 1 , further comprising a further beam splitter disposed in a corresponding optical path of the first offspring beam between the beam splitter and the incoupler, the further beam splitter to split the first offspring beam to form a third offspring beam comprising the first beam and a third portion of the second beam, and to form a fourth offspring beam comprising a fourth portion of the second beam. 4. The optical element of claim 1 , further comprising a further beam splitter disposed in a corresponding optical path of the second offspring beam between the beam splitter and the incoupler, the further beam splitter to split the second offspring beam to form a third offspring beam comprising a third portion of the second beam and a fourth offspring beam comprising a fourth portion of the second beam. 5. The optical element of claim 1 , wherein the beam splitter comprises an about 50/50 beam splitter. 6. The optical element of claim 1 , wherein: the second offspring beam has a bounce length in the light guide; and a distance between the first incidence position and the second incidence position is other than an integer multiple of the bounce length. 7. The optical element of claim 1 , further comprising an outcoupler optically coupled to the light guide, the outcoupler to concurrently direct at least a corresponding portion of each of the first offspring beam and the second offspring beam out of the light guide to form outcoupled beams propagating towards an eye of a user to form the image so that the image is viewable by the user. 8. The optical element of claim 1 , wherein the beam splitter comprises one of a dichroic partial reflector, a 50/50 beam splitter, and a polarization beam splitter. 9. The optical element of claim 1 , wherein the incoupler comprises a diffractive optical element. 10. A method of operating a display to form an image viewable by a user, the method comprising: generating a display beam at a light engine, the display beam comprising a first beam and a second beam, the second beam having a color associated with at least a wavelength that is longer than corresponding wavelengths associated with a corresponding color of the first beam; splitting the display beam using a beam splitter to form a first offspring beam comprising the first beam and a first portion of the second beam, and to form a second offspring beam comprising a second portion of the second beam; directing the first offspring beam towards an incoupler to become incident upon the incoupler at a first incidence position, the incoupler optically coupled to a light guide; and directing the second offspring beam towards the incoupler to become incident upon the incoupler at a second incidence position concurrently with the first offspring beam being incident upon the incoupler at the first incidence position, wherein the second incidence position is different than the first incidence position. 11. The method of claim 10 , wherein: the generating the display beam comprises generating the display beam comprising the first beam, the second beam, and a third beam; and the splitting the display beam comprises splitting the display beam using the beam splitter to form: the first offspring beam comprising the first beam, the first portion of the second beam, and the third beam; and the second offspring beam comprising the second portion of the second beam. 12. The method claim 10 , further comprising: splitting the first offspring beam using a further beam splitter to form: a third offspring beam comprising the first beam and a third portion of the second beam; and a fourth offspring beam comprising a fourth portion of the second beam. 13. The method claim 10 , further comprising: splitting the second offspring beam using a further beam splitter to form: a third offspring beam comprising a third portion of the second beam; and a fourth offspring beam comprising a fourth portion of the second beam. 14. The method of claim 10 , wherein the splitting the display beam comprises splitting the display beam using an about 50/50 beam splitter. 15. The method of claim 10 , wherein the directing the first offspring beam towards the incoupler and the directing the second offspring beam towards the incoupler comprise directing the first offspring beam towards the incoupler to become incident upon the incoupler at the first incidence position and directing the second offspring beam towards the incoupler to become incident upon the incoupler at the second incidence position respectively, a distance between the first incidence position and the second incidence position being other than an integer multiple of a bounce length of the second offspring beam in the light guide. 16. The method of claim 10 , wherein the beam splitter comprises one of a dichroic partial reflector, a 50/50 beam splitter, and a polarization beam splitter. 17. The method of claim 10 , wherein the directing the first offspring beam and the second offspring beam comprises directing, using the incoupler comprising a diffractive optical element, at least a portion of the first offspring beam and at least a portion of the second offspring beam into the light guide. 18. An optical element comprising: a light guide; an incoupler optically coupled to the light guide; and a beam splitter disposed in an optical path of a display beam representative of an image, the display beam comprising a first beam, a second beam, and a third beam, the beam splitter to split the display beam to form: a first offspring beam comprising the first beam, a first portion of the second beam, and the third beam; and a second offspring beam comprising a second portion of the second beam, the first offspring beam and the second offspring beam concurrently incident upon the incoupler at a first incidence position and a second incidence position respectively, the first incidence position different than the second incidence position. 19. The optical element of claim 18 , further comprising an outcoupler optically coupled to the light guide, the outcoupler to concurrently direct at least a corresponding portion of each of the first offspring beam and the second offspring beam out of the light guide to form outcoupled beams propag