Active screening for an electrical machine

The invention claimed is: 1. An electrical machine including a rotor and a stator, at least one of the rotor and the stator being provided with superconducting electrical windings; and a first set of screen electrical windings that comprises one or more further superconducting electrical windings wound about an axis that extends normal to a rotational axis of the rotor and that are arranged around and radially outward of the superconducting electrical windings, wherein: the first set of screen electrical windings is arranged to be supplied with an electrical current for generating a first magnetic field of suitable magnitude and phase to reduce a magnitude of a second magnetic field generated at least by the superconducting electrical windings during operation of the electrical machine, the second magnetic field being reduced radially outwards of the first set of screen electrical windings, the stator is provided between the superconducting electrical windings and the first set of screen electrical windings, and the first set of screen electrical windings has a same number of poles as the superconducting electrical winding provided on the one of the rotor and the stator. 2. The electrical machine according to claim 1 wherein the first set of screen electrical windings is arranged to be supplied with an electrical current for generating the first magnetic field of a suitable magnitude and phase to reduce a magnitude of the second magnetic field generated by the superconducting electrical windings and any other windings provided on the rotor or the stator during operation of the electrical machine, radially outwards of the first set of screen electrical windings. 3. The electrical machine according to claim 1 wherein the first set of screen electrical windings are arranged to be supplied with an electrical current from a source electrically isolated from the superconducting electrical windings. 4. The electrical machine according to claim 1 wherein the first set of screen electrical windings is provided in electrical series with the superconducting electrical windings. 5. The electrical machine according to claim 1 further comprising: a second set of screen electrical windings that are arranged around and radially outward of the first set of screen electrical windings, wherein the first set of screen electrical windings and the second set of screen electrical windings together have the same number of poles as the superconducting, electrical windings provided on the one of the rotor and the stator. 6. The electrical machine according to claim 5 wherein the second set of screen electrical windings comprises one or more yet further superconducting electrical windings. 7. The electrical machine according to claim 5 wherein the second set of screen electrical windings comprises one or more non-superconducting electrical windings. 8. The electrical machine according to claim 5 wherein the second set of screen electrical windings is arranged to be supplied with an electrical current for generating a third magnetic field of suitable magnitude and phase to reduce, radially outwards of the second set of screen electrical windings, a magnitude of a magnetic field generated during operation of the electrical machine by any windings provided on the rotor. 9. The electrical machine according to claim 5 wherein the second set of screen electrical windings includes one or more multi-phase coil windings. 10. The electrical machine according to claim 5 wherein the first set of screen electrical windings and the second set of screen electrical windings are cooperatively arranged to form a superconducting Gramme Ring Winding. 11. The electrical machine according to claim 1 wherein each set of screen electrical windings includes one or more superconducting multi-phase coil windings. 12. The electrical machine according to claim 1 wherein the first set of screen electrical windings carry an alternating current. 13. The electrical machine according to claim 1 wherein the first set of screen electrical windings is configured to produce a rotating magnetic field. 14. An electrical machine including a rotor and a stator, at least one of the rotor and the stator being provided with superconducting electrical windings; a first set of screen electrical windings that comprises one or more further superconducting electrical windings and that are arranged around and radially outward of the superconducting electrical windings; and a second set of screen electrical windings that are arranged around and radially outward of the first set of screen electrical windings, wherein: the first set of screen electrical windings is arranged to be supplied with an electrical current for generating a first magnetic field of suitable magnitude and phase to reduce a magnitude of a second magnetic field generated at least by the superconducting electrical windings during operation of the electrical machine, the second magnetic field being reduced radially outwards of the first set of screen electrical windings, the stator is provided between the superconducting electrical windings and the first set of screen electrical windings, and the second set of screen electrical windings is not powered by the superconducting electrical windings provided on the one of the rotor and the stator.