Superconducting field pole

The invention claimed is: 1. A plurality of superconducting field poles arranged in a circumferential direction so as to correspond to a plurality of phases of an armature winding in a rotor of a superconducting electrical rotating machine, the rotor being disposed coaxially with a stator in an internal space of the cylindrical stator in which the armature winding of the plurality of phases is arranged in the circumferential direction, each of the superconducting field poles comprising: a superconducting coil body formed by spirally winding a superconducting wire material; an outer magnetic field-deflecting member made of a ferromagnetic material, the outer magnetic field-deflecting member being arranged on or in the vicinity of an end face of the superconducting coil body at a radially outer side of the rotor; and an inner magnetic field-deflecting member made of a ferromagnetic material, the inner magnetic field-deflecting member being arranged on or in the vicinity of an end face of the superconducting coil body at a radially inner side of the rotor, wherein the outer magnetic field-deflecting members corresponding to the respective superconducting field poles are separated from one another, and the inner magnetic field-deflecting members corresponding to the respective superconducting field poles are separated from one another, and in each of the superconducting field poles, a volume of the inner magnetic field-deflecting member is larger than a volume of the outer magnetic field-deflecting member. 2. The plurality of superconducting field poles according to claim 1 , wherein in each of the superconducting field poles, the outer magnetic field-deflecting member is arranged throughout the entire end face of the superconducting coil body at the radially outer side of the rotor, and is formed into a plate shape in which a central portion is thicker than an outer circumferential portion. 3. The plurality of superconducting field poles according to claim 2 , wherein in each of the superconducting field poles, the outer magnetic field-deflecting member is formed so that the central portion has a predetermined thickness, and the thickness becomes smaller from the central portion to the outer circumferential portion. 4. The plurality of superconducting field poles according to claim 1 , wherein in each of the superconducting field poles, the inner magnetic field-deflecting member and the outer magnetic field-deflecting member are made of a nano-crystal soft magnetic material manufactured by crystallizing an amorphous alloy obtained by compositely adding copper (Cu) and niobium (Nb) to an Fe—Si—B compound. 5. The plurality of superconducting field poles according to claim 1 , wherein in each of the superconducting field poles, both the outer magnetic field-deflecting member and the inner magnetic field-deflecting member have a shape in which no hole is opened in a central portion when seen from an extending direction of a central axis of the superconducting coil body. 6. A plurality of superconducting field poles arranged in a circumferential direction so as to correspond to a plurality of phases of an armature winding in a rotor of a superconducting electrical rotating machine, the rotor being disposed coaxially with a stator in an internal space of the cylindrical stator in which the armature winding of the plurality of phases is arranged in the circumferential direction, each of the superconducting field poles comprising: a superconducting coil body formed by spirally winding a superconducting wire material; an outer magnetic field-deflecting member made of a ferromagnetic material, the outer magnetic field-deflecting member being arranged on or in the vicinity of an end face of the superconducting coil body at a radially outer side of the rotor; and an inner magnetic field-deflecting member made of a ferromagnetic material, the inner magnetic field-deflecting member being arranged on or in the vicinity of an end face of the superconducting coil body at a radially inner side of the rotor, wherein the outer magnetic field-deflecting members corresponding to the respective superconducting field poles are separated from one another, and the inner magnetic field-deflecting members corresponding to the respective superconducting field poles are separated from one another, and in each of the superconducting field poles, the inner magnetic field-deflecting member is arranged throughout the entire end face of the superconducting coil body at the radially inner side of the rotor, and is formed into a plate shape in which a central portion is thicker than an outer circumferential portion. 7. The plurality of superconducting field poles according to claim 6 , wherein in each of the superconducting field poles, the inner magnetic field-deflecting member is formed so that the central portion has a predetermined thickness, and the thickness becomes smaller from the central portion to the outer circumferential portion. 8. A plurality of superconducting field poles arranged in a circumferential direction so as to correspond to a plurality of phases of an armature winding in a rotor of a superconducting electrical rotating machine, the rotor being disposed coaxially with a stator in an internal space of the cylindrical stator in which the armature winding of the plurality of phases is arranged in the circumferential direction, each of the superconducting field poles comprising: a superconducting coil body formed by spirally winding a superconducting wire material; an outer magnetic field-deflecting member made of a ferromagnetic material, the outer magnetic field-deflecting member being arranged on or in the vicinity of an end face of the superconducting coil body at a radially outer side of the rotor; and an inner magnetic field-deflecting member made of a ferromagnetic material, the inner magnetic field-deflecting member being arranged on or in the vicinity of an end face of the superconducting coil body at a radially inner side of the rotor, wherein the outer magnetic field-deflecting members corresponding to the respective superconducting field poles are separated from one another, and the inner magnetic field-deflecting members corresponding to the respective superconducting field poles are separated from one another, and in each of the superconducting field poles, at least one of the outer magnetic field-deflecting member and the inner magnetic field-deflecting member has a shape in which a hole is opened in a central portion when seen from an extending direction of a central axis of the superconducting coil body.