Reinforcement of a superconducting magnet coil

What is claimed is: 1. A superconducting magnet assembly comprising a cylindrical magnet coil assembly with an axis of cylindrical symmetry (z) and with a reinforced coil region, wherein the reinforced coil region comprises: a layered conductor coil assembly comprising a conductor tape or a conductor wire, forming at least four cylindrical conductor layers, each having a plurality of circular conductor turns centered around and aligned along the axis of cylindrical symmetry (z), the conductor tape or conductor wire comprising at least one superconducting element, forming a continuous path along the circular conductor turns of at least one of the cylindrical conductor layers and configured to carry an electrical current Icond, the conductor tape or conductor wire having an elastic modulus Econd in a circumferential direction of the circular conductor turns, a layered corset coil assembly comprising a corset tape or a corset wire, forming at least one cylindrical corset layer, having a plurality of circular corset turns centered around and aligned along the axis of cylindrical symmetry (z), the corset tape or the corset wire having an elastic modulus Ecors in the circumferential direction of the circular corset turns, with: Ecors> 1.5 *Econd, the layered corset coil assembly having an inner radius bigger than an outer radius of the layered conductor coil assembly, a corset sheet assembly comprising a corset foil element forming at least one corset sheet, a cross section of the at least one corset sheet with any plane (A) perpendicular to the axis of cylindrical symmetry (z) forming a segmented circle having a radius and centered around the axis of cylindrical symmetry (z), the radius of the segmented circle of the at least one corset sheet being bigger than a radius of a first of the cylindrical conductor layers and smaller than a radius of a second of the cylindrical conductor layers, wherein the segmented circle formed by the cross section of the at least one corset sheet with the plane (A) perpendicular to the axis of cylindrical symmetry (z) covers at least 90% of a full circle and has no more than four segments; wherein the corset foil element has an in-plane elastic modulus Efoil, with E foil>1.5 *Econd; and wherein the layered conductor coil assembly has at least one of the cylindrical conductor layers with at least one of the circular conductor turns with: Icond> 0.005 *Econd*Acond /( Bz*r ), where Icond is the electrical current in the circular conductor turn, Acond is the cross-sectional area of the conductor tape or conductor wire of the circular conductor turn, Bz is the component of the magnetic field along the axis of cylindrical symmetry (z) in the circular conductor turn, and r is the radius of the circular conductor turn. 2. A superconducting magnet assembly according to claim 1 , wherein the segmented circle has no more than two segments. 3. A superconducting magnet assembly according to claim 2 , wherein the segmented circle has exactly one segment. 4. A superconducting magnet assembly according to claim 1 , wherein at least two of the corset sheets have respective cross sections with the plane perpendicular to the axis of cylindrical symmetry (z), wherein each of the cross sections forms a respective segmented circle, and wherein at least one segment of at least one of the segmented circles overlaps circumferentially with at least one gap of another of the segmented circles. 5. A superconducting magnet assembly according to claim 4 , wherein the at least one corset sheet has a thickness <0.2 mm. 6. A superconducting magnet assembly according to claim 1 , wherein the at least one corset sheet has a thickness <0.5 mm. 7. A superconducting magnet assembly according to claim 5 , wherein the fraction of the volume of the reinforced coil region is empty of material. 8. A superconducting magnet assembly according to claim 1 , wherein a fraction of at least 0.5% of a volume of the reinforced coil region is not filled with a solid material. 9. A superconducting magnet assembly according to claim 1 , wherein the reinforced coil region comprises a solid filler material containing an acyclic saturated hydrocarbon compound or a resin compound. 10. A superconducting magnet assembly according to claim 1 , wherein the cylindrical magnet coil assembly further comprises at least a second reinforced coil region, wherein the layered corset coil assembly of the first reinforced coil region has an outer radius equal to or smaller than an inner radius of a layered conductor coil assembly of the second reinforced coil region, wherein the first reinforced coil region has an extension along the axis of cylindrical symmetry (z) overlapping at least partially with an extension along the axis of cylindrical symmetry (z) of the second reinforced coil region. 11. A superconducting magnet assembly according to claim 1 , wherein the cylindrical magnet coil assembly further comprises at least a second reinforced coil region, wherein each of the layered conductor coil assemblies of each of the reinforced coil regions has fewer than 14 of the cylindrical conductor layers. 12. A superconducting magnet assembly according to claim 1 , wherein the superconducting element of the conductor tape or the conductor wire of the layered conductor coil assembly comprises either niobium and tin, or bismuth and strontium and calcium and copper oxide, or a rare earth element and barium and copper oxide. 13. A superconducting magnet assembly according to claim 1 , wherein the corset foil element of the corset sheet assembly comprises a steel alloy or a nickel alloy or a fiber glass compound. 14. A superconducting magnet assembly according to claim 1 , wherein the corset tape or the corset wire of the layered corset coil assembly comprises a steel alloy or a nickel alloy or a fiber glass compound. 15. A nuclear magnetic resonance (NMR) apparatus comprising the superconducting magnet assembly according to claim 1 . 16. A method for mechanical reinforcement of a cylindrical magnet coil assembly of a superconducting magnet assembly according to claim 1 , comprising: inducing bonding between the circular conductor turns and the at least one corset sheet of the reinforced coil region by heat treating the reinforced coil region at a temperature >500° C. for at least 24 hours.