Discriminating electromagnetic radiation based on angle of incidence

What is claimed is: 1. An article, comprising: a photonic material comprising a plurality of periodically occurring separate layers, including at least a first layer and a second layer disposed over the first layer, wherein: the first or second layer has an isotropic dielectric function while the other of the first and second layers has an anisotropic dielectric function; the first or second layer has an isotropic magnetic permeability while the other of the first and second layers layer has an anisotropic magnetic permeability; and the first and second layers are part of a 1-dimensionally periodic photonic crystal comprising a periodic assembly of layers, wherein the 1-dimensionally periodic photonic crystal is arranged in such a way that a line along a first coordinate direction within the 1-dimensionally periodic photonic crystal passes through multiple layers while lines along second and third orthogonal coordinate directions, each of the second and third orthogonal coordinate directions being orthogonal to the first coordinate direction within the 1-dimensionally periodic photonic crystal, do not pass through multiple layers; and the second layer comprising the anisotropic magnetic permeability comprises a combination of at least two materials arranged to have an anisotropic effective magnetic permeability. 2. The article of claim 1 , wherein the first layer has an isotropic dielectric function, and the second layer has an anisotropic dielectric function. 3. The article of claim 1 , wherein the first layer has an anisotropic dielectric function, and the second layer has an isotropic dielectric function. 4. The article of claim 1 , wherein the first layer has an isotropic magnetic permeability, and the second layer has an anisotropic magnetic permeability. 5. The article of claim 1 , wherein the first layer has an anisotropic magnetic permeability, and the second layer has an isotropic magnetic permeability. 6. The article of claim 2 , wherein the second layer comprising an anisotropic dielectric function comprises a single material having an anisotropic dielectric function. 7. The article of claim 6 , wherein the single material having an anisotropic dielectric function comprises TiO 2 , calcite, calomel, beryl, lithium niobate, zircon, and/or or mica. 8. The article of claim 2 , wherein the second layer comprising an anisotropic dielectric function comprises a combination of at least two materials arranged to have an anisotropic effective dielectric function. 9. The article of claim 8 , wherein the combination of at least two materials arranged to have an anisotropic effective dielectric function form a 2-dimensionally periodic photonic crystal. 10. The article of claim 4 , wherein the second layer comprising an anisotropic magnetic permeability comprises a combination of at least two materials arranged to have an anisotropic effective magnetic permeability. 11. The article of claim 10 1, wherein the second layer comprising an anisotropic magnetic permeability comprises a combination of a metal and a second material. 12. The article of claim 11 , wherein the second material comprises a dielectric material. 13. The article of claim 10 1, wherein the combination of at least two materials arranged to have an anisotropic effective magnetic permeability form a 2-dimensionally periodic photonic crystal. 14. The article of claim 1 , wherein, when the photonic material is exposed to electromagnetic radiation, at least about 75% of the electromagnetic radiation within a range of wavelengths that contacts an incident surface of the photonic material within a range of angles of incidence is transmitted through the photonic material, and at least about 75% of the electromagnetic radiation within the range of wavelengths that contacts the incident surface outside the range of angles of incidence is reflected by the photonic material. 15. The article of claim 1 , further comprising an energy conversion device configured to produce electricity from electromagnetic radiation received from the photonic material. 16. The article of claim 15 , wherein the energy conversion device comprises a photovoltaic cell. 17. The article of claim 16 , wherein the photovoltaic cell comprises a solar photovoltaic cell. 18. The article of claim 16 , wherein the photovoltaic cell is a thermophotovoltaic cell. 19. The article of claim 16 , wherein the energy conversion device comprises a heat engine. 20. The article of claim 1 , wherein the 1-dimensionally periodic photonic crystal is configured to selectively transmit electromagnetic radiation based upon the angle of incidence of the electromagnetic radiation. 21. An article, comprising: a plurality of separate layers, including at least a first layer and a second layer disposed over the first layer, wherein: the first or second layer has an isotropic dielectric function while the other of the first and second layers has an anisotropic dielectric function; the first and second layers are part of a structure arranged in such a way that a line along a first coordinate direction within the structure passes through multiple layers while lines along second and third orthogonal coordinate directions, each of the second and third orthogonal coordinate directions being orthogonal to the first coordinate direction within the structure, do not pass through multiple layers; and the article is configured to selectively transmit electromagnetic radiation based upon the angle of incidence of the electromagnetic radiation such that at least about 75% of the electromagnetic radiation between 400 nm and 760 nm that contacts an incident surface of the article at an angle of incidence within 5° of the 0° angle normal to the incident surface is not reflected by the article, and at least about 75% of the electromagnetic radiation between 400 nm and 760 nm that contacts the incident surface of the article at an angle of incidence outside 45° of the 0° angle normal to the incident surface is reflected by the article. 22. The article of claim 21, wherein the article is configured to selectively transmit electromagnetic radiation based upon the angle of incidence of the electromagnetic radiation such that at least about 75% of the electromagnetic radiation between 400 nm and 760 nm that contacts an incident surface of the article at an angle of incidence within 5° of the 0° angle normal to the incident surface is transmitted by the article, and at least about 75% of the electromagnetic radiation between 400 nm and 760 nm that contacts the incident surface of the article at an angle of incidence outside 45° of the 0° angle normal to the incident surface is reflected by the article. 23. The article of claim 21, further comprising: a third layer disposed over the first layer and the second layer; and a fourth layer disposed over the first layer, the second layer, and the third layer, wherein: the first layer has an isotropic dielectric function, the second layer has an anisotropic dielectric function, the third layer has an isotropic dielectric function, and the fourth layer has an anisotropic dielectric function. 24. An article, comprising: a plurality of separate layers, including at least a first layer and a second layer disposed over the first layer, wherein: the first layer has an isotropic dielectric function; the second layer has an anisotropic dielectric function; and the article is configured to selectively transmit