Rotating electric machine

The invention claimed is: 1. A rotating electric machine comprising: a stator including a stator core and an armature coil wound on the stator core; and a rotor arranged radially inside the stator to radially face the stator, the rotor including a field core, a field coil and a tubular short-circuiting member, the field core having a plurality of magnetic pole portions for respectively forming a plurality of magnetic poles the polarities of which are alternately different in a circumferential direction, the field coil being wound on the field core, the short-circuiting member being arranged radially outside the magnetic pole portions to cover radially outer surfaces of the magnetic pole portions and magnetically connecting each circumferentially-adjacent pair of the magnetic pole portions, wherein two axial end portions of the short-circuiting member protrude axially outward respectively from two axial ends of the stator core, and wherein the two axial end portions of the short-circuiting member are formed of a different material from other portions of the short-circuiting member. 2. The rotating electric machine as set forth in claim 1 , wherein the short-circuiting member is constituted of a laminate in which a plurality of predetermined members are laminated in three or more layers in an axial direction, and a material of the predetermined members of the layers constituting the two axial end portions of the short-circuiting member is different from a material of the predetermined members of the layers constituting the other portions of the short-circuiting member. 3. The rotating electric machine as set forth in claim 1 , wherein the magnetic pole portions of the field core comprise a plurality of first magnetic pole portions that protrude in a claw shape toward one side in an axial direction and a plurality of second magnetic pole portions that protrude in the claw shape toward the other side in the axial direction, the first magnetic pole portions are arranged alternately with the second magnetic pole portions in the circumferential direction, one of the two axial end portions of the short-circuiting member is joined to at least one of distal end portions of the first magnetic pole portions, and the other of the two axial end portions of the short-circuiting member is joined to at least one of distal end portions of the second magnetic pole portions. 4. The rotating electric machine as set forth in claim 1 , wherein the two axial end portions of the short-circuiting member are arranged to respectively radially face a pair of coil end parts of the armature coil, the pair of coil end parts protruding axially outward respectively from the two axial ends of the stator core. 5. The rotating electric machine as set forth in claim 1 , wherein on the two axial end portions of the short-circuiting member, a welding process, a crimping process or a press process has been performed. 6. A rotating electric machine comprising: a stator including a stator core and an armature coil wound on the stator core; and a rotor arranged radially inside the stator to radially face the stator, the rotor including a field core, a field coil and a tubular short-circuiting member, the field core having a plurality of magnetic pole portions for respectively forming a plurality of magnetic poles the polarities of which are alternately different in a circumferential direction, the field coil being wound on the field core, the short-circuiting member being arranged radially outside the magnetic pole portions to cover radially outer surfaces of the magnetic pole portions and magnetically connecting each circumferentially-adjacent pair of the magnetic pole portions, wherein two axial end portions of the short-circuiting member protrude axially outward respectively from two axial ends of the stator core, and wherein the two axial end portions of the short-circuiting member are formed to bulge radially outward from other portions of the short-circuiting member. 7. The rotating electric machine as set forth in claim 6 , wherein the short-circuiting member is constituted of a wire-like or band-like member that spirally extends and is thereby laminated in an axial direction, and a curvature of the two axial end portions of the short-circuiting member is different from a curvature of the other portions of the short-circuiting member. 8. The rotating electric machine as set forth in claim 6 , wherein on the two axial end portions of the short-circuiting member, a welding process, a crimping process or a press process has been performed. 9. The rotating electric machine as set forth in claim 6 , wherein the magnetic pole portions of the field core comprise a plurality of first magnetic pole portions that protrude in a claw shape toward one side in an axial direction and a plurality of second magnetic pole portions that protrude in the claw shape toward the other side in the axial direction, the first magnetic pole portions are arranged alternately with the second magnetic pole portions in the circumferential direction, one of the two axial end portions of the short-circuiting member is joined to at least one of distal end portions of the first magnetic pole portions, and the other of the two axial end portions of the short-circuiting member is joined to at least one of distal end portions of the second magnetic pole portions. 10. The rotating electric machine as set forth in claim 6 , wherein the two axial end portions of the short-circuiting member are arranged to respectively radially face a pair of coil end parts of the armature coil, the pair of coil end parts protruding axially outward respectively from the two axial ends of the stator core. 11. A rotating electric machine comprising: a stator including a stator core and an armature coil wound on the stator core; and a rotor arranged radially inside the stator to radially face the stator, the rotor including a field core, a field coil and a tubular short-circuiting member, the field core having a plurality of magnetic pole portions for respectively forming a plurality of magnetic poles the polarities of which are alternately different in a circumferential direction, the field coil being wound on the field core, the short-circuiting member being arranged radially outside the magnetic pole portions to cover radially outer surfaces of the magnetic pole portions and magnetically connecting each circumferentially-adjacent pair of the magnetic pole portions, wherein two axial end portions of the short-circuiting member protrude axially outward respectively from two axial ends of the stator core, and wherein the short-circuiting member is constituted of a laminate in which a plurality of predetermined members are laminated in an axial direction, and wherein each of the axial end portions of the short-circuiting member protrudes axially outward from a corresponding one of the axial ends of the stator core by only one layer. 12. A rotating electric machine comprising: a stator including a stator core and an armature coil wound on the stator core; and a rotor arranged radially inside the stator to radially face the stator, the rotor including a field core, a field coil and a tubular short-circuiting member, the field core having a plurality of magnetic pole portions for respectively forming a plurality of magnetic poles the polarities of which are alternately different in a circumferential direction, the field coil being wound on the field core, the short-circuiting member being arranged radially outside the magnetic pole portions to cover radially outer surfaces of the magnetic pole portions and magnetically connecting each circumferentially-adjacent pair