High temperature superconductor cable

The invention claimed is: 1. A cable for carrying electrical current in a coil of a magnet, comprising: an HTS transport tape having a width and a length, the length being longer than the width; and a shunt assembly comprising two or more HTS shunt tapes extending along a face of the transport tape, the HTS shut tapes arranged side-by-side across the width of the transport tape; wherein each of the transport and shunt tapes comprises a substrate layer and an HTS layer of high temperature superconductor, HTS, material, the layers of the shunt tapes extending parallel to the layers of the transport tape, and wherein the HTS layer of one or more of the shunt tapes is interrupted by a plurality of discontinuities, the discontinuities comprising dropouts and/or full or partial breaks in the HTS layer and the face of the HTS transport tape extends across each of the plurality of discontinuities. 2. A cable according to claim 1 , wherein the discontinuities within each of the one or more shunt tapes have a regular or semi-regular spacing. 3. A cable according to claim 2 , wherein the spacing of the discontinuities differs between the shunt tapes. 4. A cable according to claim 1 , wherein the HTS and substrate layers of one or more of the shunt tapes has a different orientation compared to the HTS and substrate layers of the transport tape. 5. A cable according to claim 4 , wherein the orientation of the HTS and substrate layers of the shunt tapes alternates between laterally adjacent shunt tapes. 6. A cable according to claim 1 , wherein the shunt assembly comprises a first shunt layer comprising the two or more shunt tapes and a second shunt layer comprising two or more further shunt tapes arranged side-by-side across the first shunt layer, the layers of the further shunt tapes extending parallel to the layers of the transport tape. 7. A cable according to claim 6 , wherein each shunt tape of the first shunt layer forms a type-0 or type-1 or type-2 pair with an adjacent shunt tape of the second shunt layer. 8. A cable according to claim 1 , wherein the cable further comprises another transport tape adjacent the shunt assembly such that the transport tapes form a stacked pair with the shunt assembly located inside the pair between the two transport tapes. 9. A cable according to claim 8 , wherein the transport tapes are arranged as a type-0 pair such that the respective HTS layers of the pair face each other and are between the respective substrate layers of the pair. 10. A cable according to claim 1 , wherein the discontinuities are staggered between adjacent shunt tapes. 11. A cable according to claim 1 , wherein the shunt tapes comprise HTS material which is different from the HTS material in the transport tape. 12. A cable according to claim 1 , wherein two or more shunt tapes comprise different HTS material from each other. 13. A cable according to claim 1 and comprising at least one tape which comprises HTS material which is different from the HTS material of another one of the tapes. 14. A cable for carrying electrical current in a coil of a magnet, comprising: a stacked tape assembly of HTS tapes, each HTS tape comprising a substrate layer and an HTS layer of high temperature superconductor, HTS, material, the tape assembly comprising: a transport tape comprising a continuous HTS layer, the transport tape having a width and a length, the length being longer than the width; a shunt assembly comprising one or more shunt tapes, each including a plurality of discontinuities in its HTS layer, the one or more shunt tapes arranged side-by-side across the width of the transport tape; and a normally electrically conducting layer between the transport tape and the shunt assembly for allowing electrical current to pass between the transport tape and the shunt assembly; wherein the face of the HTS transport tape extends across each of the plurality of discontinuities and the arrangement of discontinuities in the one or more tapes of the shunt assembly is chosen to direct lateral current distribution in the HTS layer of the transport tape.