Grid polarizing element and apparatus for emitting polarized UV light

What is claimed is: 1. A non-reflection type grid polarizing element for selectively transmitting a first type of polarized light and absorbing a second type of polarized light among incident light through the grid polarizing element to polarize the incident light, comprising: a flat transparent substrate having a flat surface; and a plurality of linear portions, arranged like a stripe, on the flat surface of the transparent substrate, each of the plurality of linear portions having a dominant layer made from titanium nitride or titanium oxynitride, the plurality of linear portions containing no simple metal layers, the plurality of linear portions being configured to absorb said second type of polarized light. 2. The non-reflection type grid polarizing element according to claim 1 , wherein each said linear portion has a rectangular shape in its cross section, and a ratio h/w is equal to or greater than three, where h represents a height of the rectangular shape of each said linear portion and w represents a width of the rectangular shape of each said linear portion. 3. The non-reflection type grid polarizing element according to claim 2 , wherein the second type of polarized light to be absorbed by the plurality of linear portions has a polarization axis in a longitudinal direction of the linear portions in a larger amount than the first type of polarized light that has a polarization axis in a direction perpendicular to the longitudinal direction of the linear portions while the light is propagating in a thickness direction of the linear portions, thereby polarizing the incident light. 4. The non-reflection type grid polarizing element according to claim 3 , wherein spacing between each two adjacent linear portions of the plurality of linear portions can polarize ultraviolet light. 5. The non-reflection type grid polarizing element according to claim 4 , wherein the spacing between each said two adjacent linear portions of the plurality of linear portions is equal to or greater than 100 nm and no greater than 200 nm. 6. The non-reflection type grid polarizing element according to claim 2 , wherein spacing between each two adjacent linear portions of the plurality of linear portions can polarize ultraviolet light. 7. The non-reflection type grid polarizing element according to claim 6 , wherein the spacing between each said two adjacent linear portions of the plurality of linear portions is equal to or greater than 100 nm and no greater than 200 nm. 8. The non-reflection type grid polarizing element according to claim 1 , wherein the second type of polarized light to be absorbed by the plurality of linear portions has a polarization axis in a longitudinal direction of the linear portions in a larger amount than the first type of polarized light that has a polarization axis in a direction perpendicular to the longitudinal direction of the linear portions while the light is propagating in a thickness direction of the linear portions, thereby polarizing the incident light. 9. The non-reflection type grid polarizing element according to claim 8 , wherein spacing between each two adjacent linear portions of the plurality of linear portions can polarize ultraviolet light. 10. The non-reflection type grid polarizing element according to claim 9 , wherein the spacing between each said two adjacent linear portions of the plurality of linear portions is equal to or greater than 100 nm and no greater than 200 nm. 11. The non-reflection type grid polarizing element according to claim 1 , wherein spacing between each two adjacent linear portions of the plurality of linear portions can polarize ultraviolet light. 12. The non-reflection type grid polarizing element according to claim 11 , wherein the spacing between each said two adjacent linear portions of the plurality of linear portions is equal to or greater than 100 nm and no greater than 200 nm. 13. An apparatus for irradiating an object with polarized ultraviolet light, comprising: a mercury lamp configured to emit light including a bright line spectrum equal to or less than 260 nm; and a non-reflection type grid polarizing element of claim 12 disposed at a position where the light emitted from the mercury lamp reaches, and configured to irradiate the object with the polarized light that has passed the non-reflection type grid polarizing element. 14. A photo-alignment apparatus comprising: an ultraviolet light source configured to emit light; a non-reflection type grid polarizing element of claim 12 disposed at a first position where the light emitted from the ultraviolet light source reaches; and a unit configured to transport or place a film, which becomes a photo-aligned layer, at a second position irradiated with the polarized ultraviolet light that has passed the non-reflection type grid polarizing element. 15. An apparatus for irradiating an object with polarized ultraviolet light, comprising: a mercury lamp configured to emit light including a bright line spectrum equal to or less than 260 nm; and a non-reflection type grid polarizing element of claim 11 disposed at a position where the light emitted from the mercury lamp reaches, and configured to irradiate the object with the polarized light that has passed the non-reflection type grid polarizing element. 16. A photo-alignment apparatus comprising: an ultraviolet light source configured to emit light; a non-reflection type grid polarizing element of claim 11 disposed at a first position where the light emitted from the ultraviolet light source reaches; and a unit configured to transport or place a film, which becomes a photo-aligned layer, at a second position irradiated with the polarized ultraviolet light that has passed the non-reflection type grid polarizing element. 17. A method of irradiating an object with polarized ultraviolet light, comprising: arranging a non-reflection type grid polarizing element for selectively transmitting particular polarized light among incident light through the grid polarizing element to polarize the incident light, the non-reflection type grid polarizing element comprising a transparent substrate; and a grid disposed on the transparent substrate and having a plurality of linear portions arranged like a stripe, each of the plurality of linear portions having a dominant layer made from titanium nitride or titanium oxynitride, the plurality of linear portions containing no simple metal layers, wherein spacing between each two adjacent linear portions of the plurality of linear portions of the grid can polarize ultraviolet light, at a position where light emitted from a mercury lamp reaches, the light emitted from the mercury lamp including a bright line spectrum equal to or less than 260 nm; and irradiating the object with the polarized light that has passed the non-reflection type grid polarizing element. 18. The method according to claim 17 , wherein the spacing between each said two adjacent linear portions of the grid is equal to or greater than 100 nm and no greater than 200 nm. 19. A method of fabricating a substrate that has a photo-aligned layer, comprising: arranging a non-reflection type grid polarizing element for selectively transmitting particular polarized light among incident light through the grid polarizing element to polarize the incident light, the non-reflection type grid polarizing element comprising a transparent substrate; and a grid disposed on the transparent substrate and having a plurality of linear portions arranged like a stripe, each of the plurality of linear po