Optical modulation device and driving method thereof

What is claimed is: 1 . A driving method of a liquid crystal lens panel comprising a first plate comprising a first region, a second region, and first electrodes at the first region and the second region; a second plate facing the first plate and comprising second electrodes that face the first electrodes; and a liquid crystal layer between the first plate and the second plate and comprising a plurality of liquid crystal molecules, the method comprising: forming a backward phase slope in the liquid crystal layer by applying a first driving signal to the first electrodes and the second electrodes which correspond to the first region; and forming a forward phase slope in the liquid crystal layer by applying a second driving signal that is different from the first driving signal to the first electrodes and the second electrodes which correspond to the second region, wherein a first pretilt angle of the liquid crystal molecules positioned at the first region and a second pretilt angle of the liquid crystal molecules positioned at the second region are symmetrical to each other with respect to an interface between the first region and the second region. 2 . The driving method of claim 1 , wherein the first pretilt angle of the liquid crystal molecules positioned at the first region is in a range of 84 to 88 degrees with respect to a surface of the first plate. 3 . The driving method of claim 2 , wherein the first pretilt angle of the liquid crystal molecules positioned at the second region is in a range of 92 to 96 degrees with respect to the surface of the first plate. 4 . The driving method of claim 3 , wherein the first electrodes corresponding to the first region comprise a first unit region and a second unit region which are adjacent to each other, and when the first driving signal is applied to the first electrodes and the second electrodes which correspond to the first region, an absolute value of a first voltage applied to the first unit region is greater than an absolute value of a second voltage applied to the second unit region. 5 . The driving method of claim 4 , wherein, when the first driving signal is applied to the first electrodes and the second electrodes which correspond to the first region, polarities of the first voltage and the second voltage are the same for a voltage of the second electrode. 6 . The driving method of claim 5 , wherein the first electrodes corresponding to the second region comprise a third unit region and a fourth unit region which are adjacent to each other, and when the second driving signal is applied to the first electrodes and the second electrodes which correspond to the second region, an absolute value of a third voltage applied to the third unit region is greater than an absolute value of a fourth voltage applied to the fourth unit region. 7 . The driving method of claim 6 , wherein, when the second driving signal is applied to the first electrodes and the second electrodes which correspond to the second region, polarities of the third voltage and the fourth voltage are the same for the voltage of the second electrode. 8 . The driving method of claim 7 , wherein the first voltage and the fourth voltage are the same, and wherein the second voltage and the third voltage are the same. 9 . The driving method of claim 8 , wherein each of the first unit region, the second unit region, the third unit region, and the fourth unit region comprises at least one of the first electrodes. 10 . A liquid crystal lens panel comprising: a first plate comprising a first region, a second region, and first electrodes at the first region and the second region; a second plate facing the first plate and comprising second electrodes that face the first electrodes; and a liquid crystal layer between the first plate and the second plate and comprising a plurality of liquid crystal molecules, wherein the first electrodes and the second electrodes which correspond to the first region receive a first driving signal to form a backward phase slope in the liquid crystal layer, the first electrodes and the second electrodes which correspond to the second region receive a second driving signal that is different from the first driving signal to form a forward phase slope in the liquid crystal layer, and a first pretilt angle of the liquid crystal molecules positioned at the first region and a second pretilt angle of the liquid crystal molecules positioned at the second region are symmetrical to each other with respect to an interface between the first region and the second region. 11 . The liquid crystal lens panel of claim 10 , wherein the first pretilt angle of the liquid crystal molecules positioned at the first region is in a range of 84 to 88 degrees with respect to a surface of the first plate. 12 . The liquid crystal lens panel of claim 11 , wherein the first pretilt angle of the liquid crystal molecules positioned at the second region is in a range of 92 to 96 degrees with respect to the surface of the first plate. 13 . The liquid crystal lens panel of claim 12 , wherein the first electrodes corresponding to the first region comprise a first unit region and a second unit region which are adjacent to each other, and when the first driving signal is applied to the first electrodes and the second electrodes which correspond to the first region, an absolute value of a first voltage applied to the first unit region is greater than an absolute value of a second voltage applied to the second unit region. 14 . The liquid crystal lens panel of claim 13 , wherein when the first driving signal is applied to the first electrodes and the second electrodes which correspond to the first region, polarities of the first voltage and the second voltage are the same for a voltage of the second electrode. 15 . The liquid crystal lens panel of claim 14 , wherein the first electrodes corresponding to the second region comprise a third unit region and a fourth unit region which are adjacent to each other, and when the second driving signal is applied to the first electrodes and the second electrodes which correspond to the second region, an absolute value of a third voltage applied to the third unit region is greater than an absolute value of a fourth voltage applied to the fourth unit region. 16 . The liquid crystal lens panel of claim 15 , wherein when the second driving signal is applied to the first electrodes and the second electrodes which correspond to the second region, polarities of the third voltage and the fourth voltage are the same for the voltage of the second electrode. 17 . The liquid crystal lens panel of claim 16 , wherein the first voltage and the fourth voltage are the same, and wherein the second voltage and the third voltage are the same. 18 . The liquid crystal lens panel of claim 17 , wherein each of the first unit region, the second unit region, the third unit region, and the fourth unit region comprises at least one of the first electrodes.