Strain—or magnetic field-based quench detection

The invention claimed is: 1. A method of detecting conditions likely to cause a quench in a superconducting magnet comprising a plurality of HTS field coils, each field coil comprising: a plurality of turns comprising HTS material and metallic stabilizer; and a conductive material connecting the turns such that current can be shared radially between turns via the conductive material; the method comprising: monitoring strain and/or a magnetic field of each HTS field coil; comparing the monitored strain and/or magnetic field for each HTS field coil to the monitored strain and/or magnetic field of at least one other HTS field coil of the plurality of HTS field coils; and in response to said comparison, determining whether one or more of the HTS field coils is likely to quench. 2. The method according to claim 1 , wherein determining whether one or more of the HTS field coils is likely to quench comprises one or more of: determining that one of the HTS field coils is likely to quench if the monitored strain or magnetic field differs from the strain or magnetic field of at least one other HTS field coil by more than a threshold value; and determining that one of the HTS field coils is likely to quench if the monitored strain or magnetic field has a component perpendicular to the strain or magnetic field of at least one other HTS field coil with a magnitude greater than a threshold value. 3. The method according to claim 2 , wherein the threshold value is a predetermined proportion of the strain or magnetic field of the at least one other HTS field coil. 4. A high temperature superconducting, HTS, magnet system comprising a plurality of HTS field coils, each HTS field coil comprising: a plurality of turns comprising HTS material and metallic stabilizer; a conductive material connecting the turns, such that current can be shared between turns via the conductive material; the HTS magnet system further comprising a quench protection system and a plurality of sensors comprising: one or more strain sensors located on each HTS field coil or on a structural support of each HTS field coil, and/or one or more magnetic field sensors configured to monitor the magnetic field of each HTS field coil; wherein the quench protection system is configured to: monitor strain and/or magnetic field measurements for each HTS coil using the plurality of sensors; compare the strain and/or magnetic field measurements for each HTS coil to a strain and/or magnetic field measurements of at least one other HTS field coil of the plurality of HTS field coils; and in response to said comparison, determine whether one or more of the HTS field coils is likely to quench. 5. The HTS magnet system according to claim 4 , wherein the conductive material is contained within a partially insulating layer comprising any of: an intermittent layer of insulation; a semiconductor; a metal strip having an intermittent layer of insulation on each side; and a metal-insulator transition material. 6. A tokamak comprising the HTS magnet system according to claim 5 , wherein the plurality of HTS field coils are toroidal field coils of the tokamak.