Antenna device and array antenna device

The invention claimed is: 1. An antenna device comprising: a rectangular waveguide having first and second opening ends each to receive or output an electromagnetic wave; a septum phase plate disposed inside the rectangular waveguide in such a way as to partition the first opening end into two parts along a first direction perpendicular to a waveguide axial direction of the rectangular waveguide, a width of the septum phase plate in a second direction perpendicular to both the waveguide axial direction of the rectangular waveguide and the first direction becoming narrower stepwise with advancing from the first opening end toward the second opening end; and two first projecting portions disposed on two respective first inner walls parallel to the septum phase plate, out of four inner walls of the rectangular waveguide, in such a way as to project toward an inside of the rectangular waveguide, wherein a disposed position of each of the first projecting portions with respect to the corresponding first inner wall is a central position of the corresponding first inner wall in the second direction, wherein each of the two first projecting portions is disposed not to overlap with the septum phase plate in the waveguide axial direction of the rectangular waveguide, and has a shape adjusted in such a manner that a ratio between an electric field strength in the first direction and an electric field strength in the second direction of an electromagnetic wave received by the rectangular waveguide is brought close to 1. 2. The antenna device according to claim 1 , wherein an aperture shape of the second opening end is square, and an aperture shape of each of the two parts of the first opening end partitioned by the septum phase plate is rectangular. 3. The antenna device according to claim 1 , comprising two second projecting portions disposed on two respective second inner walls perpendicular to the first inner walls, out of the four inner walls of the rectangular waveguide, in such a way as to project toward the inside of the rectangular waveguide, wherein each of the two second projecting portions is disposed not to overlap with the septum phase plate in the waveguide axial direction of the rectangular waveguide. 4. The antenna device according to claim 3 , wherein a disposed position of each of the second projecting portions with respect to the corresponding second inner wall is a central position of the corresponding second inner wall in the first direction. 5. The antenna device according to claim 3 , wherein in each of the second projecting portions, a length of a part thereof projecting toward the inside of the rectangular waveguide changes with respect to the waveguide axial direction of the rectangular waveguide. 6. The antenna device according to claim 5 , wherein in each of the second projecting portions, the length of the part projecting toward the inside of the rectangular waveguide changes stepwise with respect to the waveguide axial direction of the rectangular waveguide. 7. The antenna device according to claim 5 , wherein in each of the second projecting portions, the length of the part projecting toward the inside of the rectangular waveguide changes continuously with respect to the waveguide axial direction of the rectangular waveguide. 8. The antenna device according to claim 5 , wherein in each of the second projecting portions, the length of the part projecting toward the inside of the rectangular waveguide changes triangularly with respect to the waveguide axial direction of the rectangular waveguide. 9. The antenna device according to claim 1 , wherein in each of the first projecting portions, a length of a part thereof projecting toward the inside of the rectangular waveguide changes with respect to the waveguide axial direction of the rectangular waveguide. 10. The antenna device according to claim 9 , wherein in each of the first projecting portions, the length of the part projecting toward the inside of the rectangular waveguide changes stepwise with respect to the waveguide axial direction of the rectangular waveguide. 11. The antenna device according to claim 9 , wherein in each of the first projecting portions, the length of the part projecting toward the inside of the rectangular waveguide changes continuously with respect to the waveguide axial direction of the rectangular waveguide. 12. The antenna device according to claim 9 , wherein in each of the first projecting portions, the length of the part projecting toward the inside of the rectangular waveguide changes triangularly with respect to the waveguide axial direction of the rectangular waveguide. 13. An array antenna device in which multiple antenna devices are arranged, each of the antenna devices comprising: a rectangular waveguide having first and second opening ends each to receive or output an electromagnetic wave; a septum phase plate disposed inside the rectangular waveguide in such a way as to partition the first opening end into two parts along a first direction perpendicular to a waveguide axial direction of the rectangular waveguide, a width of the septum phase plate in a second direction perpendicular to both the waveguide axial direction of the rectangular waveguide and the first direction becoming narrower stepwise with advancing from the first opening end toward the second opening end; and two first projecting portions disposed on two respective first inner walls parallel to the septum phase plate, out of four inner walls of the rectangular waveguide, in such a way as to project toward an inside of the rectangular waveguide, wherein a disposed position of each of the first projecting portions with respect to the corresponding first inner wall is a central position of the corresponding first inner wall in the second direction, wherein each of the two first projecting portions is disposed not to overlap with the septum phase plate in the waveguide axial direction of the rectangular waveguide, and has a shape adjusted in such a manner that a ratio between an electric field strength in the first direction and an electric field strength in the second direction of an electromagnetic wave received by the rectangular waveguide is brought close to 1.