Quench detection in superconducting magnets

1 - 25 . (canceled) 26 . A high temperature superconductor, HTS, tape for detecting a quench in a superconducting magnet, the HTS tape comprising an HTS layer of HTS material supported by a substrate, the HTS layer being divided into a plurality of strips, the strips being connected in series along an open path. 27 . An HTS tape according to claim 26 , wherein the strips are arranged to carry current in opposite directions and to be parallel and adjacent to each other. 28 . An HTS tape according to claim 26 , wherein the strips are connected within the HTS layer by the HTS material. 29 . An HTS tape according claim 28 , wherein the plurality of strips are separated by a plurality of striations through the HTS layer, each striation having a first end extending from an end of the HTS layer and a second end terminating within the HTS layer adjacent an opposite end of the HTS layer, the first ends of successive striations extending to opposite ends of the HTS layer. 30 . An HTS tape according to claim 28 , wherein the plurality of strips are separated by non-superconducting barriers of the HTS material. 31 . An HTS tape according to claim 30 , wherein the non-superconducting barriers are non-superconducting as a result of thermal damage to the HTS material. 32 . An HTS tape according to claim 26 , wherein each end of the open path connecting the strips in series is located at a single end of the HTS layer. 33 . An HTS tape according to claim 26 , wherein each end of the open path connecting the strips in series is located at a single edge of the HTS layer. 34 . An HTS tape according to claim 26 , wherein the HTS material is coated with a stabiliser layer comprising stabiliser material. 35 . A Wheatstone bridge circuit for detecting a quench in a superconducting magnet, the circuit comprising: a current supply; two half-bridge sections connected across the current supply in parallel, each half-bridge section comprising an HTS tape according to claim 26 arranged as two non-overlapping arms connected in series at a node, each arm comprising a continuous section of the open path of the HTS tape; and a voltage sensor connected between the nodes of each half-bridge section. 36 . A circuit according to claim 35 , wherein the circuit is balanced when each of the arms is at the same temperature. 37 . A circuit according to claim 35 , wherein in the HTS tape of each half-bridge section, each end of the open path connecting the strips in series is located at a single edge of the HTS layer and the half-bridge sections are arranged side-by-side with the ends of the open path of each of the HTS tapes adjacent one another. 38 . A quench protection system for use with a superconducting magnet having at least one primary coil comprising high temperature superconductor, HTS, material, the system comprising: a secondary HTS tape according to claim 26 ; a detection unit configured to detect onset of a loss of superconductivity in the secondary HTS tape; and a quench protection unit configured to cause energy to be dumped from the primary coil to an external resistive load in response to said detection. 39 . A quench protection system according to claim 38 , wherein the detection unit is configured to detect onset of a loss of superconductivity in the secondary HTS tape by detecting a voltage difference in excess of a predetermined value between two points of the secondary HTS tape. 40 . A quench protection system according to claim 38 , wherein the detection unit is configured to detect onset of a loss of superconductivity in the secondary HTS tape by detecting a rate of change of voltage difference in excess of a predetermined value between two points of the secondary HTS tape. 41 . A superconducting magnet comprising a primary coil and the quench protection system according to claim 38 , the primary coil comprising high temperature superconductor, HTS, material. 42 . A toroidal or poloidal field coil for a nuclear fusion reactor, the toroidal or poloidal field coil comprising high temperature superconductor, HTS, material and a quench protection system according to claim 38 . 43 . A method of manufacturing an HTS tape according to claim 26 , the method comprising etching the HTS layer to divide the HTS layer into strips. 44 . A method of manufacturing an HTS tape according to claim 26 , the method comprising laser cutting the HTS layer to divide the HTS layer into strips. 45 . A method of manufacturing an HTS tape according to claim 26 , the method comprising scribing the HTS layer to divide the HTS layer into strips. 46 . A method of protecting a superconducting magnet from quenches, the superconducting magnet having at least one primary coil comprising high temperature superconductor, HTS, primary coil material, the method comprising: providing a Wheatstone bridge circuit according to claim 35 ; detecting a voltage difference between the half-bridge sections of the circuit using the voltage sensor; and in response to said detection, dumping energy from the primary coil into an external resistive load. 47 . A method of protecting a superconducting magnet from quenches, the superconducting magnet having at least one primary coil comprising high temperature superconductor, HTS, material, the method comprising: providing a secondary HTS tape according claim 26 ; detecting onset of a loss of superconductivity in the secondary HTS tape by detecting a voltage difference in excess of a predetermined value between two points of the secondary HTS tape; and in response to said detection, dumping energy from the primary coil into an external resistive load. 48 . A method according to claim 47 , wherein detecting the voltage difference comprises applying a probe current to the secondary HTS tape, the probe current comprising an alternating current component. 49 . A method according to claim 48 and comprising phase sensitive detection of the voltage difference. 50 . A method according to claim 48 , wherein the amplitude of the alternating current component of the probe current is sufficient to cause the probe current to periodically exceed a critical current at which the secondary HTS tape ceases superconducting when the temperature of the secondary HTS tape rises above a predetermined temperature value. 51 . A method of producing a high temperature superconductor, HTS, tape for detecting a quench in a superconducting magnet, the HTS tape comprising an HTS layer of HTS material supported by a substrate, the HTS material being coated with a stabiliser layer comprising stabiliser material, the method comprising: selectively directing laser radiation on to the stabiliser layer to form non-superconducting barriers of the HTS material which divide the HTS layer into a plurality of strips connected in series along an open path. 52 . A method according to claim 51 , wherein the laser radiation does not penetrate the stabiliser material.