Patent Number: 
Section: claims

1. An irradiation control device which controls irradiation of charged particles to a target that includes a substance that generates neutrons by being irradiated with a charged particle beam, comprising:a deflector that deflects the charged particles; anda controller that controls the deflector such that a plurality of peaks of heat density formed by the beam are formed between a center of an irradiation surface of the target and an end portion of the irradiation surface by moving the beam of the charged particles on the irradiation surface of the target. 2. The irradiation control device for charged particles according to claim 1, wherein the controller controls the deflector to make a diameter of the beam of the charged particles smaller than a radius of the irradiation surface. 3. The irradiation control device for charged particles according to claim 1, wherein the controller controls the deflector to change a movement speed of the beam or the number of times of irradiations of the same irradiation region between a center side and an end portion side of the irradiation surface. 4. The irradiation control device for charged particles according to claim 3, wherein the controller controls the deflector to cause the beam of the charged particles to orbit multiple times such that a center of the beam of the charged particles draws a plurality of circular trajectories having different radii with the center of the irradiation surface as a trajectory center on the irradiation surface. 5. The irradiation control device for charged particles according to claim 4, wherein a time required for one revolution in a case of irradiating with the beam along a first orbit trajectory is set to be longer than a time required for one revolution in a case of irradiating with the beam along a second orbit trajectory that is shorter than the first orbit trajectory. 6. The irradiation control device for charged particles according to claim 4, wherein the number of times of orbits of the beam along a first orbit trajectory is set to be smaller than the number of times of orbits of the beam along a second orbit trajectory that is shorter than the first orbit trajectory. 7. The irradiation control device for charged particles according to claim 3, wherein the controller controls the deflector to move the beam of the charged particles such that a center of the beam of the charged particles draws a spiral trajectory with the center of the irradiation surface as a trajectory center on the irradiation surface. 8. The irradiation control device for charged particles according to claim 1, wherein the deflector includes a first-direction deflection unit that deflects and emits incident charged particles in a first direction, and a second-direction deflection unit that deflects and emits incident charged particles in a second direction intersecting the first direction. 9. The irradiation control device for charged particles according to claim 8, wherein the first-direction deflection unit and the second-direction deflection unit include electromagnets.