Superconducting coil protection method and superconducting magnet device

The invention claimed is: 1. A method for protecting a superconducting coil made by winding superconducting wire, the method comprising: measuring a magnetic field in a direction of a thickness of the superconducting wire at a predetermined position; and decreasing electric current flowing through the superconducting wire based on a magnitude of a screening field, which is a difference between the measured magnetic field and another magnetic field in the direction of the thickness calculated disregarding an effect of a screening current flowing through the superconducting wire which is in a superconducting state. 2. The method for protecting the superconducting coil according to claim 1 , wherein the electric current flowing through the superconducting wire is decreased based on the magnitude of the screening field at a position near an outer periphery of an axial end of the superconducting coil. 3. The method for protecting the superconducting coil according to claim 1 , wherein power from a power supply to the superconducting coil is shut off when the magnitude of the screening field once increases and then decreases to a predetermined threshold value. 4. A superconducting magnet device comprising: a superconducting coil made by winding superconducting wire; a housing for accommodating the superconducting coil in a superconducting state; and a power supply for energizing the superconducting coil, wherein the superconducting magnet device further comprises a controller configured to measure a magnitude of a screening field induced by screening current flowing through the superconducting wire which is in the superconducting state, and to decrease electric current flowing through the superconducting wire based on the measured magnitude of the screening field, the controller includes a magnetic sensor which measures a magnetic field in a direction of a thickness of the superconducting wire at a predetermined position, and the controller decreases the electric current flowing through the superconducting wire based on the magnitude of the screening field, which is a difference between the magnetic field measured by the magnetic sensor and another magnetic field in the direction of the thickness calculated disregarding an effect of the screening current. 5. The superconducting magnet device according to claim 4 , wherein the magnetic sensor is located at a position near an outer periphery of an axial end of the superconducting coil. 6. The superconducting magnet device according to claim 4 , wherein the controller includes a power shut-off device which shuts off power from the power supply to the superconducting coil when the magnitude of the screening field once increases and then decreases to a predetermined threshold value.