Window substrate and display device having the same

What is claimed is: 1. A window substrate comprising: a glass substrate; a shock wave transmission layer on a first surface of the glass substrate, the shock wave transmission layer being a single layer; and an adhesive layer for coupling the window substrate to a display panel, and located on a surface of the shock wave transmission layer that is most distant from the glass substrate, wherein a density and an elastic modulus of the shock wave transmission layer are respectively less than those of the glass substrate, wherein the density of the shock wave transmission layer decreases in a direction away from the glass substrate and toward the adhesive layer due to a gradually increasing absence of material corresponding to pores defined in the shock wave transmission layer in the direction away from the glass substrate and toward the adhesive layer, wherein a density of the pores varies, such that a number of respective ones of the pores that are located at substantially a same respective distance from the glass substrate and along a same respective horizontal line increases in the direction away from the glass substrate, wherein a density and an elastic modulus of the adhesive layer are respectively less than those of the shock wave transmission layer, wherein the window substrate further comprises a coating layer on a second surface of the glass substrate, wherein a density and an elastic modulus of the coating layer are respectively greater than those of the glass substrate, and wherein the coating layer comprises silicon nitride (Si 3 N 4 ). 2. The window substrate of claim 1 , wherein the density of the shock wave transmission layer is equal to or greater than about 4% of the density of the glass substrate, and wherein the elastic modulus of the shock wave transmission layer is equal to or greater than about 2% of the elastic modulus of the glass substrate. 3. The window substrate of claim 1 , wherein the shock wave transmission layer comprises an organic material having pores distributed therein. 4. The window substrate of claim 1 , wherein a thickness of the coating layer is about 1 nm to about 1 μm. 5. The window substrate of claim 1 , wherein a thickness of the shock wave transmission layer is about 1 μm about 100 μm. 6. A display device comprising: a display panel; a window substrate on one surface of the display panel, and comprising a glass substrate, and a shock wave transmission layer on a first surface of the glass substrate, the shock wave transmission layer being a single layer; and an adhesive layer on a surface of the shock wave transmission layer that is most distant from the glass substrate, wherein a density and an elastic modulus of the shock wave transmission layer are respectively less than those of the glass substrate, wherein the density of the shock wave transmission layer decreases in a direction away from the glass substrate and toward the display panel due to a gradually increasing absence of material corresponding to pores defined in the shock wave transmission layer in the direction away from the glass substrate and toward the display panel, wherein a density of the pores varies, such that a number of respective ones of the pores that are located at substantially a same respective distance from the glass substrate and along a same respective horizontal line increases in the direction away from the glass substrate, wherein a density and an elastic modulus of the adhesive layer are respectively less than those of the shock wave transmission layer, wherein the window substrate further comprises a coating layer on a second surface of the glass substrate, wherein a density and an elastic modulus of the coating layer are respectively greater than those of the glass substrate, and wherein the coating layer comprises silicon nitride (Si 3 N 4 ). 7. The display device of claim 6 , wherein the shock wave transmission layer comprises an organic material having pores distributed therein.