Window, fabricating method thereof and mobile terminal having the same

What is claimed is: 1. A mobile terminal comprising: a body to contain electronic components of the mobile terminal; a display provided on the body to provide images; and a window provided on the display, the window including a transparent region and an opaque region, wherein the opaque region of the window comprises: a transparent substrate, a first layer, at the opaque region of the window, formed on a surface of the transparent substrate, the first layer having a white color, wherein a width of the first layer having the white color is less than a width of the substrate, a second layer of high luminance formed on a surface of the first layer, the second layer of the opaque region provided between the first layer and the display, the second layer to reflect incoming light received through the first layer in a direction away from the display, and the second layer to reflect light received from the display in a direction away from the first layer such that the white color of the first layer is recognized, and a width of the second layer is less than a width of the first layer having the white color, a third layer formed under the second layer such that the third layer is between the second layer and the display, the third layer to adsorb light from the display, wherein the third layer is formed with a gray color or a black color, and a fourth layer and a fifth layer between the second layer and the display of the opaque region of the window, the fourth layer provided between the third layer and the fifth layer, wherein the second layer is formed of a non-conductive material, wherein the first layer includes an upper first layer and a lower first layer, the upper first layer is provided between the substrate and the lower first layer, and the lower first layer is provided between the upper first layer and the second layer, wherein the upper first layer and the lower first layer are formed such that a width from the transparent substrate to the second layer is gradually decreased, and wherein the upper first layer has a wider area than the lower first layer such that the first layer is provided as a stepped structure. 2. The mobile terminal of claim 1 , wherein the second layer of the opaque region includes a first surface that faces the first layer and a second surface that faces the display, the first surface of the second layer reflects the incoming light received from the first layer in the direction away from the display, and the second surface of the second layer reflects the light received from the display in the direction away from the first layer. 3. The mobile terminal of claim 1 , wherein the second layer is formed of one of indium, tin, or a combination of silicon oxide and titanium oxide. 4. The mobile terminal of claim 1 , wherein the second layer is formed by one of thermal resistance evaporation, sputtering or Non-Conductive Vacuum Metalizing (NCVM). 5. The mobile terminal of claim 1 , wherein the first layer includes a hole with a preset shape, the hole being in the opaque region between the transparent substrate and the second layer of the opaque region of the window. 6. The mobile terminal of claim 1 , wherein the fourth layer adheres the substrate, the first layer, the second layer and the third layer onto the fifth layer. 7. The mobile terminal of claim 6 , wherein the fourth layer comprises an optical adhesive film. 8. The mobile terminal of claim 6 , wherein the fifth layer detects a touch input. 9. The mobile terminal of claim 1 , wherein the opaque region is provided around a circumference of the transparent region. 10. A mobile terminal comprising: a wireless communication unit to provide wireless communication; a display to display images; a touch window on the display to receive touch inputs; and a body to support the wireless communication unit, the display and the touch window, wherein the touch window includes a transparent region and an opaque region, wherein the opaque region of the window includes: a transparent substrate, a first layer, in the opaque region of the window on the display, formed under the transparent substrate, the first layer having a white color, a second layer of high luminance formed under the first layer such that the first layer is provided between the second layer and the transparent substrate and the second layer is between the first layer and the display, the second layer including a first surface to face the first layer and a second surface to face away from the first layer, the first surface of the second layer to reflect external light away from the display, and the second surface of the second layer to reflect internal light away from the first layer such that the white color of the first layer is recognized, wherein an area of the second layer is at least as wide as an area of the first layer having the white color, a third layer formed under the second layer such that the third layer is between the second layer and the display, the third layer to adsorb light from the display, wherein the third layer is formed with a gray color or a black color, and a fourth layer and a fifth layer between the second layer and the display of the opaque region of the window, the fourth layer provided between the third layer and the fifth layer, wherein the second layer is formed of a non-conductive material, wherein the first layer includes an upper first layer and a lower first layer, the upper first layer is provided between the substrate and the lower first layer, and the lower first layer is provided between the upper first layer and the second layer, wherein the upper first layer and the lower first layer are formed such that a width from the transparent substrate to the second layer is gradually decreased, and wherein the upper first layer has a wider area than the lower first layer such that the first layer is provided as a stepped structure. 11. The mobile terminal of claim 10 , wherein the second layer is formed of one of indium, tin, or a combination of silicon oxide and titanium oxide. 12. The mobile terminal of claim 10 , wherein the fourth layer comprises an optical adhesive film. 13. The mobile terminal of claim 10 , wherein the opaque region is provided around a circumference of the transparent region.