Light controlling apparatus and transparent display including the same

What is claimed is: 1. A light controlling apparatus, comprising: a first electrode on a first substrate; a first alignment film on the first electrode; a second electrode on a second substrate facing the first substrate; a second alignment film on the second electrode; and a guest-host liquid crystal layer between the first alignment film and the second alignment film, the guest-host liquid crystal layer including cholesteric liquid crystals and dichroic dyes, wherein the first and second electrodes provide a vertical electric field, at least one of the first and second electrodes provides a horizontal electric field, the cholesteric liquid crystals have a homeotropic state when an electric field in a first direction is applied to the guest-host liquid crystal layer, whereby a transparent mode transmitting incident light is realized, the cholesteric liquid crystals have a focal conic state when an electric field in a second direction is applied to the guest-host liquid crystal layer, whereby a light shielding mode shielding incident light is realized, and the cholesteric liquid crystals and the dichroic dyes maintain the same state when no electric field is applied to the guest-host liquid crystal layer. 2. The light controlling apparatus of claim 1 , wherein the first direction is a vertical direction, and the second direction is a horizontal direction. 3. The light controlling apparatus of claim 1 , wherein the first direction is a horizontal direction, and the second direction is a vertical direction. 4. The light controlling apparatus of claim 1 , wherein the cholesteric liquid crystals and the dichroic dyes are arranged in a vertical direction in the transparent mode. 5. The light controlling apparatus of claim 1 , wherein the cholesteric liquid crystals and the dichroic dyes are arranged randomly in the light shielding mode. 6. The light controlling apparatus of claim 1 , wherein the cholesteric liquid crystals reflect light of an infrared wavelength range or an ultraviolet wavelength range. 7. The light controlling apparatus of claim 1 , wherein the first electrode includes split electrodes to provide the horizontal electric field. 8. The light controlling apparatus of claim 7 , wherein if the cholesteric liquid crystals are positive type liquid crystals, the cholesteric liquid crystals are transited from the homeotropic state to the focal conic state by the horizontal electric field, and are transited from the focal conic state to the homeotropic state by the vertical electric field. 9. The light controlling apparatus of claim 7 , wherein if the cholesteric liquid crystals are negative type liquid crystals, the cholesteric liquid crystals are transited from the homeotropic state to the focal conic state by the vertical electric field, and are transited from the focal conic state to the homeotropic state by the horizontal electric field. 10. The light controlling apparatus of claim 1 , wherein the second electrode includes split electrodes for providing the horizontal electric field. 11. The light controlling apparatus of claim 10 , wherein if the cholesteric liquid crystals are positive type liquid crystals, the cholesteric liquid crystals are transited from the homeotropic state to the focal conic state by the horizontal electric field, and are transited from the focal conic state to the homeotropic state by the vertical electric field. 12. The light controlling apparatus of claim 10 , wherein if the cholesteric liquid crystals are negative type liquid crystals, the cholesteric liquid crystals are transited from the homeotropic state to the focal conic state by the vertical electric field, and are transited from the focal conic state to the homeotropic state by the horizontal electric field. 13. The light controlling apparatus of claim 1 , wherein the first and second electrodes include split electrodes for providing the horizontal electric field. 14. The light controlling apparatus of claim 13 , wherein if the cholesteric liquid crystals are positive type liquid crystals, the cholesteric liquid crystals are transited from the homeotropic state to the focal conic state by the horizontal electric field, and are transited from the focal conic state to the homeotropic state by the vertical electric field. 15. The light controlling apparatus of claim 13 , wherein, if the cholesteric liquid crystals are negative type liquid crystals, the cholesteric liquid crystals are transited from the homeotropic state to the focal conic state by the vertical electric field, and are transited from the focal conic state to the homeotropic state by the horizontal electric field. 16. The light controlling apparatus of claim 1 , wherein the first and second alignment films arrange the cholesteric liquid crystals and the dichroic dyes in a vertical direction. 17. The light controlling apparatus of claim 1 , wherein the guest-host liquid crystal layer further includes polymer networks. 18. The light controlling apparatus of claim 1 , wherein the guest-host liquid crystal layer further includes spacers for maintaining a cell gap of the guest-host liquid crystal layer. 19. A light controlling apparatus, comprising: a first electrode on a first substrate; a second electrode on a second substrate facing the first substrate; and a guest-host liquid crystal layer between the first electrode and the second electrode, the guest-host liquid crystal layer including cholesteric liquid crystals, dichroic dyes and a vertical alignment material arranging the cholesteric liquid crystals and the dichroic dyes in a vertical direction, wherein the first and second electrodes provide a vertical electric field, at least one of the first and second electrodes provides a horizontal electric field, the cholesteric liquid crystals have a homeotropic state when an electric field in a first direction is applied to the guest-host liquid crystal layer, whereby a transparent mode transmitting incident light is realized, the cholesteric liquid crystals have a focal conic state when an electric field in a second direction is applied to the guest-host liquid crystal layer, whereby a light shielding mode shielding incident light is realized, and the cholesteric liquid crystals maintain the same state when no electric field is applied to the guest-host liquid crystal layer. 20. A transparent display device, comprising: a transparent display panel including a transmissive area and an emissive area, the emissive displaying an image; and a light controlling apparatus on at least one surface of the transparent display panel, wherein the light controlling apparatus includes a guest-host liquid crystal layer between a first alignment film and a second alignment film, the guest-host liquid crystal layer including cholesteric liquid crystals and dichroic dyes, and the cholesteric liquid crystals have a focal conic state in a display mode for displaying the image in the emissive area, whereby the light controlling apparatus is realized in a light shielding mode shielding incident light. 21. The transparent display device of claim 20 , wherein the cholesteric liquid crystals have a homeotropic state in a non-display mode in which the image is not displayed in the emissive area, whereby the light controlling apparatus is realized in a transparent mode transmitting incident light. 22. The transparent display device of claim 20 , wherein the cholesteric liquid crystals have the focal conic state in a non-display mode in