Waveguide device, slot array antenna, and radar, radar system, and wireless communication system including the slot array antenna

What is claimed is: 1. A waveguide device comprising: an electrically conductive member having an electrically conductive surface; a waveguide member having an electrically-conductive waveguide face of a stripe shape opposing the electrically conductive surface, the waveguide member extending along the electrically conductive surface; and an artificial magnetic conductor extending on both sides of the waveguide member, wherein, the waveguide member has a bend at which a direction that the waveguide member extends changes; a waveguide which is defined by the electrically conductive surface, the waveguide face, and the artificial magnetic conductor includes a gap enlargement where a gap between the electrically conductive surface and the waveguide face is locally increased; and in a plan view projected along a direction perpendicular to the electrically conductive surface, at least a portion of the bend has an overlap with the gap enlargement. 2. The waveguide device of claim 1 , wherein the waveguide member has a recess at the gap enlargement. 3. The waveguide device of claim 2 , wherein, the waveguide member has an electrically-conductive side face connected to the waveguide face; and a height of the electrically-conductive side face on an inside of the bend is lower in a place where the recess exists than in a place adjacent to the recess. 4. The waveguide device of claim 1 , wherein the electrically conductive surface has a recess at the gap enlargement. 5. The waveguide device of claim 2 , wherein the electrically conductive surface has a recess at the gap enlargement. 6. The waveguide device of claim 3 , wherein the electrically conductive surface has a recess at the gap enlargement. 7. The waveguide device of claim 1 , wherein, the waveguide member includes a first portion which is connected to the bend and extends along a first direction, and a second portion which is connected to the bend and extends along a second direction that intersects the first direction; at the bend, edges of the waveguide face each include a transitory portion extending along a direction which is intermediate between the first direction and the second direction; and the transitory portion on an inside of the bend is shorter in length than the transitory portion on an outside of the bend. 8. The waveguide device of claim 2 , wherein, the waveguide member includes a first portion which is connected to the bend and extends along a first direction, and a second portion which is connected to the bend and extends along a second direction that intersects the first direction; at the bend, edges of the waveguide face each include a transitory portion extending along a direction which is intermediate between the first direction and the second direction; and the transitory portion on an inside of the bend is shorter in length than the transitory portion on an outside of the bend. 9. The waveguide device of claim 4 , wherein, the waveguide member includes a first portion which is connected to the bend and extends along a first direction, and a second portion which is connected to the bend and extends along a second direction that intersects the first direction; at the bend, edges of the waveguide face each include a transitory portion extending along a direction which is intermediate between the first direction and the second direction; and the transitory portion on an inside of the bend is shorter in length than the transitory portion on an outside of the bend. 10. The waveguide device of claim 5 , wherein, the waveguide member includes a first portion which is connected to the bend and extends along a first direction, and a second portion which is connected to the bend and extends along a second direction that intersects the first direction; at the bend, edges of the waveguide face each include a transitory portion extending along a direction which is intermediate between the first direction and the second direction; and the transitory portion on an inside of the bend is shorter in length than the transitory portion on an outside of the bend. 11. The waveguide device of claim 7 , wherein, the waveguide member includes a portion with a chamfered corner on the outside of the bend; and an upper edge of the portion with the chamfered corner is flush with the transitory portion on the outside of the bend. 12. The waveguide device of claim 8 , wherein, the waveguide member includes a portion with a chamfered corner on the outside of the bend; and an upper edge of the portion with the chamfered corner is flush with the transitory portion on the outside of the bend. 13. The waveguide device of claim 9 , wherein, the waveguide member includes a portion with a chamfered corner on the outside of the bend; and an upper edge of the portion with the chamfered corner is flush with the transitory portion on the outside of the bend. 14. The waveguide device of claim 7 , wherein one end and another end of the transitory portion on the outside of the bend are located inside the gap enlargement. 15. The waveguide device of claim 9 , wherein one end and another end of the transitory portion on the outside of the bend are located inside the gap enlargement. 16. The waveguide device of claim 11 , wherein one end and another end of the transitory portion on the outside of the bend are located inside the gap enlargement. 17. The waveguide device of claim 13 , wherein one end and another end of the transitory portion on the outside of the bend are located inside the gap enlargement. 18. The waveguide device of claim 1 , wherein the bend has a bending angle of 90°. 19. The waveguide device of claim 2 , wherein the bend has a bending angle of 90°. 20. The waveguide device of claim 4 , wherein the bend has a bending angle of 90°. 21. The waveguide device of claim 1 further comprising a further electrically conductive member, wherein, the artificial magnetic conductor includes a plurality of electrically conductive rods each having a leading end opposing the electrically conductive surface, and the plurality of electrically conductive rods are connected to roots of the further electrically conductive member. 22. The waveguide device of claim 21 , wherein, the waveguide member is connected to the further electrically conductive member; and the further electrically conductive member, the waveguide member, and the plurality of electrically conductive rods are parts of a continuous single-piece body. 23. The waveguide device of claim 21 , wherein, the waveguide device is used for propagation of an electromagnetic wave of a predetermined band; and a width of the waveguide member, a width of each electrically conductive rod, a width of a space between two adjacent electrically conductive rods, a distance from the root of each electrically conductive rod to the electrically conductive surface, and a width of a space between an electrically conductive rod that is adjacent to the waveguide member and the waveguide member are all less than λm/2, where λm is a wavelength, in free space, of an electromagnetic wave of a highest frequency among electromagnetic waves of the predetermined band. 24. An antenna device comprising: a waveguide device of claim 1 ; and at least one antenna element that is connected to the waveguide device. 25. An antenna device comprising: a waveguide device of claim 2 ; and