Optical see-through glass type display device and corresponding optical element

The invention claimed is: 1. An optical see-through glass display device, comprising: an image projector projecting a virtual image; a first optical element configured to guide light of the virtual image; a second optical element positioned between the first optical element and an ambient scene, having a first reflection surface for reflecting back light coming through a front surface of the second optical element and a second reflection surface for retro-reflecting light coming through a rear surface of the second optical element; at least one gap formed between the first reflection surface and the second reflection surface of the second optical element; and a liquid supplier/remover which supplies liquid to fill the gap and removes the liquid from the gap, the liquid having a refraction index capable of disabling the reflection on the first and second reflection surfaces of the second optical element, wherein the second optical element is switchable between a first state in which the reflection on the first and second reflection surfaces is enabled and a second state in which the reflection on the first and second reflection surfaces is disabled. 2. The display device according to claim 1 , wherein the gap is segmented into a plurality of gaps arranged in a matrix form, and wherein the liquid supplier/remover supplying the liquid to fill each gap and removing the liquid from each gap, individually. 3. The display device according to claim 2 , wherein the liquid supplier/remover does not supply the liquid to gaps which overlap an area of the first optical element where the virtual image is presented and the liquid supplier/remover supplies the liquid to gaps which do not overlap the area. 4. The display device according to claim 1 , wherein the liquid supplier/remover comprising a reservoir for containing the liquid, a pump for pumping the liquid into and out of the gap and a controller to control the pump and liquid flow to the gap. 5. An optical see-through glass display device comprising: an image projector projecting a virtual image; a first optical element configured to guide light of the virtual image; a second optical element positioned between the first optical element and an ambient scene, having a first reflection surface for reflecting back light coming through a front surface of the second optical element and a second reflection surface for retro-reflecting light coming through a rear surface of the second optical element; refraction index variable elements arranged in a matrix form between the first reflection surface and the second reflection surface of the second optical element; electrodes formed on the second optical element for driving the elements individually; and a controller for controlling the electrodes to drive the refraction index variable elements individually so that refraction index for each element be individually switched between a low refraction index state which enables the reflection on the first and second reflection surfaces and a high refraction index state which disables the reflection on the first and second reflection surfaces, wherein the second optical element is switchable between a first state in which the reflection on the first and second reflection surfaces is enabled and a second state in which the reflection on the first and second reflection surfaces is disabled. 6. The display device according to claim 5 , wherein the refraction index variable elements, which overlaps an area of the first optical element where the virtual image is presented, are switched to the low refraction index state and the refraction index variable elements which don't overlap the area are switched to the high refraction index state. 7. An optical element, comprising a first reflection surface for reflecting back light coming through the front surface of the optical element, a second reflection surface for retro-reflecting light coming through the rear surface of the optical element, at least one gap formed between the first reflection surface and the second reflection surface of the optical element, wherein liquid having a refraction index capable of disabling the reflection on the first and second reflection surfaces of the optical element may be supplied to fill the gap and removed from the gap and the optical element is switchable between a first state in which the reflection on the first and second reflection surfaces is enabled and a second state in which the reflection on the first and second reflection surfaces is disabled. 8. The optical element according to claim 7 , wherein the gap is segmented into a plurality of gaps arranged in a matrix form, the liquid may be supplied to fill each gap and removed from each gap, individually. 9. An optical element comprising: a first reflection surface for reflecting back light coming through the front surface of the optical element; a second reflection surface for retro-reflecting light coming through the rear surface of the optical element; refraction index variable elements arranged in a matrix form between the first reflection surface and the second reflection surface of the optical element; and electrodes formed on the optical element for driving the elements individually, wherein the refraction index variable elements are individually driven by the electrodes so that refraction index for each element be individually switched between a low refraction index state which enables the reflection on the first and second reflection surfaces and a high refraction index state which disables the reflection on the first and second reflection surfaces and the optical element is switchable between a first state in which the reflection on the first and second reflection surfaces is enabled and a second state in which the reflection on the first and second reflection surfaces is disabled.