High temperature superconducting multicore tape wire, and manufacturing method thereof and manufacturing device

The invention claimed is: 1. A method for manufacturing a high temperature multi-filamentary superconducting tape wire having an oxide superconducting layer formed on a tape-shaped metal substrate with an intermediate layer therebetween and a metal stabilizing layer formed on the oxide superconducting layer, the oxide superconducting layer and the intermediate layer being provided with one or more lengthwise slits, the metal substrate and the stabilizing layer being provided with no slit, the method comprising the steps of: preparing a high temperature superconducting wire having the oxide superconducting layer formed on the tape-shaped metal substrate with the intermediate layer therebetween and the stabilizing layer formed on the oxide superconducting layer, and forming the one or more lengthwise slits either by bending the high temperature superconducting wire in a lengthwise direction thereof or concentrating stress on the high temperature superconducting wire in the lengthwise direction, or by carrying out both the bending and the stress concentration simultaneously. 2. The method for manufacturing a high temperature multi-filamentary superconducting tape wire of claim 1 , wherein in the slit forming step, the slit is formed by pressing an edge member against the high temperature superconducting wire. 3. The method for manufacturing a high temperature multi-filamentary superconducting tape wire of claim 2 , wherein the edge member is a rotating edge member, and wherein in the slit forming step, the slit is formed by passing the high temperature superconducting wire between the rotating edge member and a guide roller provided opposed to each other. 4. The method for manufacturing a high temperature multi-filamentary superconducting tape wire of claim 3 , wherein the rotating edge member is not provided with an edge member at a part of a circumference thereof, and in the slit forming step, the slit is formed discontinuously in a lengthwise direction of the high temperature superconducting wire. 5. The method for manufacturing a high temperature multi-filamentary superconducting tape wire of claim 1 , wherein in the slit forming step, the slit is formed by bending the high temperature superconducting wire into a V-shape by embossing processing. 6. The method for manufacturing a high temperature multi-filamentary superconducting tape wire of claim 5 , wherein in the slit forming step, the slit is formed by passing the high temperature superconducting wire between a first roller having an outer circumference in a raised V-shape and a second roller having an outer circumference in a recessed V-shape, the first and second rollers being provided opposed to each other. 7. The method for manufacturing a high temperature multi-filamentary superconducting tape wire of claim 6 , wherein at least one of the first roller and the second roller is provided with a notch part at a part of the outer circumference thereof, and in the slit forming step, the slit is formed discontinuously in the lengthwise direction of the high temperature superconducting wire.