Glazing having switchable optical properties

What is claimed is: 1. A glazing having switchable optical properties, comprising: a transparent substrate having an outer surface and an inner surface; a reflection layer on the outer surface and/or on the inner surface; and a switchable functional element arranged on the interior side relative to the reflection layer, wherein the functional element is an electrochromic, a thermochromic, a gasochromic, a photochromic, a photoelectrochromic, a thermotropic, a PDLC or an SPD functional element, wherein the reflection layer contains a material having a refractive index n R , wherein the product of the refractive index n R and a thickness d of the reflection layer is from 250 nm to 960 nm, and wherein the reflection layer is a single and homogeneous layer so that the reflection is not a layer structure of individual layers. 2. The glazing according to claim 1 , wherein the refractive index is measured at a wavelength of 550 nm. 3. The glazing according to claim 1 , wherein the substrate is bonded to a transparent cover pane having an outer surface and an inner surface via the inner surface by means of at least one thermoplastic intermediate layer, and wherein the functional element is arranged on the outer surface, on the inner surface, or in the thermoplastic intermediate layer. 4. The glazing according to claim 1 , wherein the substrate is bonded to a transparent cover pane having an outer surface and an inner surface via the inner surface by means of at least one spacer, and wherein the functional element is arranged on the outer surface or on the inner surface. 5. The glazing according to claim 1 , wherein the reflection layer is arranged on the outer surface and the functional element is arranged on the inner surface. 6. The glazing according to claim 1 , wherein the reflection layer contains at least silicon nitride, tin oxide, silicon oxynitride, zinc oxide, zirconium oxide, aluminum nitride, indium tin oxide, tin zinc oxide, titanium zinc oxide, and/or titanium silicon oxide. 7. The glazing according to claim 1 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 365 nm to 400 nm, or from 730 nm to 800 nm. 8. The glazing according to claim 7 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 375 nm to 390 nm. 9. The glazing according to claim 7 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 750 nm to 780 nm. 10. The glazing according to claim 1 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 435 nm to 480 nm, or from 870 nm to 960 nm. 11. The glazing according to claim 10 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 440 nm to 475 nm. 12. The glazing according to claim 10 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 880 nm to 950 nm. 13. The glazing according to claim 1 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 305 nm to 365 nm, or from 610 nm to 730 nm. 14. The glazing according to claim 13 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 320 nm to 345 nm. 15. The glazing according to claim 13 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 640 nm to 690 nm. 16. The glazing according to claim 1 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 250 nm to 300 nm, or from 500 nm to 600 nm. 17. The glazing according to claim 16 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 270 nm to 285 nm. 18. The glazing according to claim 16 , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 540 nm to 570 nm. 19. The glazing according to claim 1 , wherein the substrate contains non-prestressed, partially prestressed, or prestressed glass, or clear plastics and/or mixtures thereof. 20. The glazing according to claim 19 , wherein the substrate contains flat glass, float glass, quartz glass, borosilicate glass, or soda lime glass. 21. The glazing according to claim 19 , wherein the substrate contains polyethylene, polypropylene, polycarbonate, polymethyl methacrylate, polystyrene, polyamide, polyester, or polyvinyl chloride. 22. The glazing according to claim 19 , wherein the substrate has a thickness from 20 μm to 10 mm. 23. A method, comprising: providing the reflection layer in the glazing according to claim 1 ; selecting a refractive index n R and selecting a thickness d, wherein the product of the refractive index n R and the thickness d of the reflection layer is from 250 nm to 960 nm; and thereby controlling the external reflection color. 24. The method of claim 23 , wherein the refractive index n R ranges from 1.6 to 2.55. 25. A method for producing a glazing having switchable optical properties, comprising: providing a transparent substrate having an outer surface and an inner surface, a reflection layer on the outer surface and/or on the inner surface, and a switchable functional element arranged on the interior side relative to the reflection layer, wherein the functional element is an electrochromic, a thermochromic, a gasochromic, a photochromic, a photoelectrochromic, a thermotropic, a PDLC, or an SPD functional element, wherein the reflection layer contains a material having a refractive index, wherein the product of a refractive index n R and a thickness d of the reflection layer is from 250 nm to 960 nm, and wherein the reflection layer is a single and homogeneous layer so that the reflection is not a layer structure of individual layers; applying the reflection layer on the outer surface or on the inner surface of the transparent substrate; applying the switchable functional element on the outer surface or on the inner surface of a transparent cover pane or incorporating the switchable functional element into a thermoplastic intermediate layer; and bonding the transparent substrate to the transparent cover pane via the thermoplastic intermediate layer under the action of heat, vacuum, and/or pressure. 26. A method for producing a glazing having switchable optical properties, comprising: providing a transparent substrate having an outer surface and an inner surface, a reflection layer on the outer surface and/or on the inner surface, and a switchable functional element arranged on the interior side relative to the reflection layer, wherein the functional element is an electrochromic, a thermochromic, a gasochromic, a photochromic, a photoelectrochromic, a thermotropic, a PDLC, or an SPD functional element, wherein the reflection layer contains a material having a refractive index n R , wherein the product of the refractive index n R and the thickness d of the reflection layer is from 250 nm to 960 nm, and wherein the reflection layer is a single and homogeneous layer so that the reflection is not a layer structure of individual layers; applying the reflection layer on the outer surface or on the inner surface of the transparent substrate; applying the switchable functional element on the outer surface or on the i