Polarization structures for light-emitting diodes

What is claimed is: 1. A light-emitting diode (LED) package comprising: a submount; an LED chip on the submount, the LED chip configured to emit light with a peak wavelength; and a polarization structure on the LED chip, the polarization structure formed by a surface of a material that is light-transmissive to the peak wavelength, wherein the polarization structure is configured such that unpolarized light generated from the LED chip is received by the polarization structure and polarized light exits the polarization structure. 2. The LED package of claim 1 , further comprising a cover structure that is arranged on the LED chip such that the LED chip is arranged between the cover structure and the submount, wherein the polarization structure is integrated with the cover structure. 3. The LED package of claim 2 , wherein the cover structure comprises a superstrate and the polarization structure is a light-polarizing film that is arranged on a surface of the superstrate. 4. The LED package of claim 2 , wherein the cover structure comprises a superstrate and the polarization structure is formed in a surface of the superstrate. 5. The LED package of claim 2 , further comprising a lumiphoric material that is arranged between the polarization structure and the LED chip. 6. The LED package of claim 5 , further comprising a wavelength filter layer that is arranged between the lumiphoric material and the polarization structure. 7. The LED package of claim 2 , wherein the cover structure forms an opening over the LED chip. 8. The LED package of claim 1 , wherein the polarization structure is a cross-polarization structure that is formed by first and second polarization substructures. 9. The LED package of claim 1 , wherein the polarization structure is a circular polarization structure. 10. A light-emitting diode (LED) package comprising: a submount; a first LED chip on the submount, the first LED chip configured to emit light with a first peak wavelength; a first polarization structure that is registered with the first LED chip, the first polarization structure formed by a surface of a material that is light-transmissive to the first peak wavelength, wherein the first polarization structure is configured such that unpolarized light generated from the first LED chip is received by the first polarization structure and polarized light exits the first polarization structure; a second LED chip on the submount; and a second polarization structure that is registered with the second LED chip, wherein the second polarization structure is configured such that unpolarized light generated from the second LED chip is received by the second polarization structure and polarized light exits the second polarization structure. 11. The LED package of claim 10 , wherein: the first LED chip and the second LED chip are configured to be electrically activated and deactivated independently of one another; and the first polarization structure provides a different orientation of polarized light than the second polarization structure such that the LED package is capable of separately providing at least two different types of polarized light. 12. The LED package of claim 10 , further comprising: a third LED chip on the submount; a third polarization structure that is registered with the third LED chip, wherein the third polarization structure is configured such that unpolarized light generated from the third LED chip is received by the third polarization structure and polarized light exits the third polarization structure; a fourth LED chip on the submount; and a fourth polarization structure that is registered with the fourth LED chip, wherein the fourth polarization structure is configured such that unpolarized light generated from the fourth LED chip is received by the fourth polarization structure and polarized light exits the fourth polarization structure. 13. The LED package of claim 12 , wherein the first, second, third, and fourth polarization structures are configured to provide a different orientation of polarized light from one another. 14. The LED package of claim 12 , wherein the first and second polarization structures are configured to provide a same orientation and the third and fourth polarization structures are configured to provide a same orientation that is different than the orientation of the first and second polarization structures. 15. The LED package of claim 12 , wherein the first, second, third, and fourth polarization structures are configured to provide a same orientation of polarized light. 16. The LED package of claim 10 , wherein the first LED chip is registered with a lumiphoric material and the second LED chip is devoid of any lumiphoric material. 17. The LED package of claim 10 , further comprising: a third LED chip on the submount that is devoid of any polarization structure such that unpolarized light from the third LED chip may exit the LED package; wherein the first, second, and third LED chips are configured to be electrically activated and deactivated independently of one another such that the LED package is capable of separately providing polarized light and unpolarized light. 18. A light-emitting device comprising: a light-emitting diode (LED) chip; and a polarization structure that is integrated within a surface of the LED chip, wherein the polarization structure is configured such that unpolarized light generated from an active region within the LED chip is received by the polarization structure and polarized light exits the LED chip. 19. The light-emitting device of claim 18 , wherein the polarization structure is at least one of a linear polarization structure, a planar polarization structure, a cross-polarization structure, a circular polarization structure, or an elliptical polarization structure. 20. The light-emitting device of claim 18 , where the polarization structure comprises a pattern of nanostructured features that are integrated with the LED chip. 21. The light-emitting device of claim 18 , where the polarization structure comprises features formed in the surface of the LED chip and the features deviate from the surface of the LED chip in a range from 0.1 nanometers (nm) to 100 nm.