Demountable solder joints for coupling superconducting current paths

1 . An apparatus comprising: a first plate comprising a plurality of channels that include a first layer of a high temperature superconductor (HTS) and a first electrically conductive layer over the first layer of the HTS; a second plate comprising a plurality of channels that include a second layer of the HTS and a second electrically conductive layer over the second layer of the HTS; and a layer of solder contacting a portion of the first electrically conductive layer of the first plate and a portion of the second electrically conductive layer of the second plate, wherein the second plate is disposed over the first plate such that the portion of the first electrically conductive layer is arranged next to the portion of the second electrically conductive layer with the layer of solder between the portion of the first electrically conductive layer and the portion of the second electrically conductive layer, thereby providing an electrically conductive path from the first electrically conductive layer to the second electrically conductive layer. 2 . The apparatus of claim 1 , wherein the first plate comprises at least one solder flow pathway extending from an exterior of the first plate to at least one of the plurality of channels of the first plate. 3 . The apparatus of claim 1 , wherein the first electrically conductive layer is arranged in contact with the first layer of the HTS. 4 . The apparatus of claim 1 , wherein the first plate comprises a stack of layers of the HTS, the stack of layers including the first layer of the HTS. 5 . The apparatus of claim 2 , wherein the at least one solder flow pathway has a path shape that allows solder to flow between the first layer of the HTS in channels of the first plate and the second layer of the HTS in overlapping channels of the second plate. 6 . The apparatus of claim 1 , wherein the plurality of channels of the first plate are arranged next to the plurality of channels of the second plate, with respective portions of the first electrically conductive layer in the plurality of channels of the first plate arranged next to portions of the second electrically conductive layer in the plurality of channels of the second plate. 7 . The apparatus of claim 6 , wherein the layer of solder extends over each of the portions of the first electrically conductive layer in the plurality of channels of the first plate. 8 . An apparatus comprising: a first plate having one or more channels provided in a surface thereof and having a joint region, the joint region having at least one opening through which solder may be introduced; a first high temperature superconductor (HTS) disposed in the one or more channels of the first plate; a conductor disposed over the HTS in the one or more channels of the first plate; a second plate, having one or more channels provided in a surface thereof and having a joint region; a second HTS disposed in the one or more channels of the second plate; and a conductor disposed over the HTS in the one or more channels of the second plate; wherein the second plate is disposed over the first plate such that the joint region in the first plate is disposed over the joint region in the second plate and at least a portion of the conductor disposed over the HTS in the one or more channels of the first plate contacts at least a portion of the conductor disposed over the HTS in the one or more channels of the first plate. 9 . An apparatus according to claim 8 wherein the joint region comprises at least one solder flow pathway and at least one opening through which solder may be introduced into the at least one solder flow pathway. 10 . An apparatus according to claim 9 , wherein the at least one solder flow pathway is a solder flow channel in the first plate, the solder flow channel having a path shape configured to allow solder to flow between the conductor in the first plate and overlapping portions of the conductor in the second plate. 11 . An apparatus according to claim 9 , wherein the at least one solder flow pathway is a solder flow channel having a serpentine path shape about portions of channels in the joint region of the first plate. 12 . An apparatus according to claim 9 further comprising a gasket disposed around the joint region. 13 . An apparatus according to claim 8 further comprising: solder of a first type disposed in the one or more channels of the first plate to provide an electrical and mechanical connection between the HTS and walls defining the channels in which the HTS is disposed; and solder of the first type disposed in the one or more channels of the second plate to provide an electrical and mechanical connection between the HTS and surfaces defining the channels in which the HTS is disposed. 14 . An apparatus according to claim 13 further comprising a solder of a second type disposed in the one or more channels in the joint region of the first plate to provide an electrical and mechanical connection between the HTS in the first plate and the HTS in the second plate. 15 . An apparatus according to claim 14 , wherein the solder of the first type has a melting point which is higher than a melting point of the solder of the second type. 16 . An apparatus comprising: a first plate having one or more channels provided in a surface thereof and having a joint region, the joint region having at least one solder flow pathway formed therein and wherein the first plate has openings therein through which solder may be introduced into the at least one solder flow pathway; a high temperature superconductor (HTS) disposed in the one or more channels of the first plate; a channel cap disposed over the HTS in the one or more channels of the first plate; a second plate, having one or more channels provided in a surface thereof and having a joint region; an HTS disposed in the one or more channels of the second plate; a channel cap disposed over the HTS in the one or more channels of the second plate; wherein the second plate is disposed over the first plate such that the joint region in the first plate is disposed over the joint region in the second plate and at least a portion of one channel cap disposed in the one or more channels of the first plate contacts at least a portion of one channel cap disposed in the one or more channels of the second plate so as to form at least one electrically conductive path. 17 . An apparatus according to claim 16 further comprising a gasket disposed around the joint region. 18 . An apparatus according to claim 16 , wherein the at least one solder flow pathway is s solder flow channel in the first plate, the solder flow channel having a path shape configured to allow solder to flow between the HTS in the channels of the first plate and HTS in overlapping channels of the second plate. 19 . An apparatus according to claim 16 , wherein the at least one solder flow pathway is a solder flow channel having a serpentine path share about portions of channels in the joint region of the first plate. 20 . An apparatus according to claim 16 further comprising: solder of a first type disposed in the one or more channels of the first plate to provide an electrical and mechanical connection between the HTS and walls defining the channels in which the HTS is disposed; and solder of the first type disposed in the one or more channels of the second plate to provide an electrical and mechanical connection between the HTS and surfaces defining the channels in which the HTS is disposed.