Variable-cycle permanent-magnet undulator

The invention claimed is: 1. A variable-period permanent-magnet undulator comprising: permanent magnets and ferromagnetic substances, which are alternately arranged to form at least a pair of arrays that are spaced apart from each other, wherein the permanent magnets are magnetized in a direction parallel to an extension direction of each of the arrays of the permanent magnets and the ferromagnetic substances, and each of the ferromagnetic substances disposed between the pair of permanent magnets is saturated in magnetic flux by magnetic fields generated from the pair of permanent magnets adjacent to each other so that a distance between each of the permanent magnets and the ferromagnetic substance varies by a repulsive force between the permanent magnets. 2. The variable-period permanent-magnet undulator of claim 1 , wherein the undulator is disposed so that the pair of permanent magnets adjacent to each other in the extension direction of the array of the permanent magnet and the ferromagnetic substance are magnetized in directions opposite to each other, and the pair of permanent magnets adjacent to each other in a spaced direction between the arrays of the permanent magnets and the ferromagnetic substances are magnetized in directions opposite to each other. 3. The variable-period permanent-magnet undulator of claim 1 , wherein, in the undulator, the permanent magnet has an area greater than that of the ferromagnetic substance. 4. The variable-period permanent-magnet undulator of claim 1 , wherein the undulator comprises a planar undulator constituted by the pair of arrays of the permanent magnets and the ferromagnetic substances or a helical undulator constituted by two pair of arrays of the permanent magnets and the ferromagnetic substances, which are disposed perpendicular to each other on the coaxial circle. 5. The variable-period permanent-magnet undulator of claim 1 , wherein the permanent magnet is formed of a rare-earth-based permanent magnet material and comprises an Nd—Fe—B permanent magnet or a samarium cobalt-based permanent magnet. 6. The variable-period permanent-magnet undulator of claim 1 , wherein the ferromagnetic substance is formed of at least one material selected from pure steel, low-carbon steel, and vanadium permenduer. 7. The variable-period permanent-magnet undulator of claim 1 , wherein, when an axial center of the array of the permanent magnet and the ferromagnetic substance is defined as a central point, the extension direction of the array of the permanent magnet and the ferromagnetic substance is defined as a first direction, and two directions perpendicular to the first direction are respectively defined as second and third directions, the undulator comprises: a plurality of magnetic parts comprising at least one of the pair of permanent magnets and the pair of ferromagnetic substances; a plurality of support plates disposed in a direction perpendicular to the first direction to fixedly support the magnetic parts, the plurality of support plates having a through-hole that defines a passage, through which electron beams pass, in the central point and a plurality of guide unit through-holes and being formed of a nonmagnetic material; a plurality of guide units extending in a direction parallel to the first direction to pass through the guide unit through-holes of the plurality of support plates, the plurality of guide units being formed of a nonmagnetic material; and a linear transfer unit supporting both ends of the array of the permanent magnet and the ferromagnetic substance, which is constituted by the magnetic parts and the support plates, in the first direction, the linear transfer unit having a length that varies in the first direction and applying a compressive force to the permanent magnet and the ferromagnetic substance in the first direction to adjust a distance between the magnets. 8. The variable-period permanent-magnet undulator of claim 7 , wherein, in the undulator, the magnetic parts comprise a pair of permanent magnets that are disposed symmetrical to each other in a direction perpendicular to the first direction of the central point and are magnetized in directions opposite to each other and a pair of ferromagnetic substances that are disposed symmetrical to each other in a direction perpendicular to the first direction and the arrangement direction of the pair of permanent magnets of the central point, four magnetic parts are disposed in one period to form a helical undulator, when the four magnetic parts are successively defined as a first magnetic part, a second magnetic part, a third magnetic part, and a fourth magnetic part, the second magnetic part rotates at an angle of about 90° in a predetermined rotation direction with respect to the first magnetic part so that the permanent magnet of the first magnetic part and the ferromagnetic substance of the second magnetic part and the ferromagnetic substance of the first magnetic part and the permanent magnet of the second magnetic part face each other, the third magnetic part further rotates at an angle of about 90° in the rotation direction with respect to the second magnetic part so that the permanent magnet of the second magnetic part and the ferromagnetic substance of the third magnetic part and the ferromagnetic substance of the second magnetic part and the permanent magnet of the third magnetic part face each other, the fourth magnetic part further rotates at an angle of about 90° in the rotation direction with respect to the third magnetic part so that the permanent magnet of the third magnetic part and the ferromagnetic substance of the fourth magnetic part and the ferromagnetic substance of the third magnetic part and the permanent magnet of the fourth magnetic part face each other, and the permanent magnets of the first to fourth magnetic parts are magnetized in a direction that successively rotates at an angle of about 90° in the rotation direction. 9. The variable-period permanent-magnet undulator of claim 8 , wherein the rotation direction is a clockwise direction or counterclockwise direction using the first direction of an axis. 10. The variable-period permanent-magnet undulator of claim 7 , wherein, in the undulator, the magnetic parts comprise two kinds of parts comprising a pair of permanent magnets that are disposed symmetrical to each other in a direction perpendicular to the first direction of the central point and are magnetized in directions opposite to each other and a pair of ferromagnetic substances that are disposed symmetrical to each other in a direction parallel to the arrangement direction of the pair of permanent magnets of the central point, four magnetic parts are disposed in one period to form a helical undulator, when the four magnetic parts are successively defined as a first magnetic part, a second magnetic part, a third magnetic part, and a fourth magnetic part, the first and third magnetic parts correspond to permanent magnet magnetic parts, and the second and fourth magnetic parts correspond to ferromagnetic substance magnetic parts, and the permanent magnets of the first and third magnetic parts are magnetized in opposite directions that are symmetrical to each other. 11. The variable-period permanent-magnet undulator of claim 7 , wherein the linear transfer unit comprises: a frame; a fixed plate fixed to one end of the array of the permanent magnet and the ferromagnetic substance of the frame; and a movable plate disposed on the other end of the array of the permanent magnet and the ferromagnetic substance, wherein the other end of the array of the permanent magnet and the ferromagnetic substance is pushed by the movable plate to apply the com