A cyclotron includes: a regenerator configured to move a beam of a charged particle on an orbit outward in a radial direction; and a magnetic channel configured to put the beam on an extraction orbit. The regenerator includes a pair of magnetic members for a regenerator. The magnetic member for a re
A cyclotron includes: a regenerator configured to move a beam of a charged particle on an orbit outward in a radial direction; and a magnetic channel configured to put the beam on an extraction orbit. The regenerator includes a pair of magnetic members for a regenerator. The magnetic member for a regenerator includes a first portion including a portion approaching the median plane as it goes outward in a radial direction and having an apex closest to the median plane. When viewed from the circumferential direction, assuming that a distance between the centerline of the apex in the radial direction and a first reference position set on a radially inner end side of the first portion is a first distance and a distance between the centerline and a second reference position set on a radially outer end side of the first portion is a second distance, the first distance is greater than the second distance.
대표청구항▼
1. A cyclotron, comprising: a regenerator configured to move a beam of a charged particle on an orbit outward in a radial direction; anda first magnetic channel configured to put the beam on an extraction orbit,wherein the regenerator includes a pair of regenerator magnetic members facing each other
1. A cyclotron, comprising: a regenerator configured to move a beam of a charged particle on an orbit outward in a radial direction; anda first magnetic channel configured to put the beam on an extraction orbit,wherein the regenerator includes a pair of regenerator magnetic members facing each other with a median plane of the beam interposed therebetween,each of the regenerator magnetic members includes a first portion that extends from a radially inner end to a radially outer end and includes an apex centered around a centerline perpendicular to the median plane,between the radially inner end and the centerline, the first portion monotonically becomes nearer to the median plane as a radial distance from a center of the cyclotron increases, andthe first portion satisfies the relationship d1>d2, where d1 is a radial distance between the centerline and a first reference position, d2 is a radial distance between the centerline and a second reference position, the first reference position is located on a radially inner end side of the first portion, and the second reference position on a radially outer end side of the first portion. 2. The cyclotron according to claim 1, wherein the second reference position is located at the radially outer end of the first portion. 3. The cyclotron according to claim 1, wherein a magnitude of a magnetic field generated by the regenerator magnetic members at the first reference position is about ¼ of a magnitude of the magnetic field generated by the regenerator magnetic members at the apex. 4. The cyclotron according to claim 1, wherein the first magnetic channel includes a first channel magnetic member disposed on a radially outer end side of the regenerator magnetic member, andthe cyclotron satisfies the relationship d1>d3, where d3 is a radial distance between the centerline and a radially inner end of the first channel magnetic member. 5. The cyclotron according to claim 1, wherein the radially outer end of the first portion is adjacent to a radially outer end of the apex, and is perpendicular to the median plane and extends to an opposite side of the median plane, andthe second reference position is located at the radially outer end of the first portion. 6. The cyclotron according to claim 1, wherein the regenerator magnetic member includes a second portion located on the radially inner end side of the first portion, anda median-plane-facing surface of the second portion is nearer to the median plane than a median-plane-facing surface of the first portion at the radially inner end of the first portion. 7. The cyclotron according to claim 4, wherein the first channel magnetic member is in contact with the regenerator magnetic member. 8. The cyclotron according to claim 1, further comprising: a second magnetic channel that is located on an upstream side of the first magnetic channel in a direction of the beam and on a downstream side of the regenerator in the direction of the beam,wherein the second magnetic channel is formed of a coil. 9. The cyclotron according to claim 1, wherein the cyclotron is a synchrocyclotron. 10. A cyclotron, comprising: a regenerator configured to move a beam of charged particles on an orbit outward; anda first magnetic channel configured to put the beam on an extraction orbit,wherein the regenerator includes a pair of regenerator magnetic members facing each other with a median plane of the beam interposed therebetween,each of the regenerator magnetic members includes a first portion that has a cross-sectional shape that extends toward the median plane and tapers to an apex centered around a centerline perpendicular the median plane, andthe first portion satisfies the relationship d1>d2, where d1 is a radial distance between the centerline and a first face of the first portion, the first face located radially inward relative to the apex, and d2 is a radial distance between the centerline and a second face of the first portion, the second face located radially outward relative to the apex. 11. The cyclotron according to claim 10, wherein the second face is an outmost end face of the first portion. 12. The cyclotron according to claim 10, wherein a magnitude of a magnetic field generated by the regenerator magnetic members at the first face is about ¼ of a magnitude of the magnetic field generated by the regenerator magnetic members at the apex. 13. The cyclotron according to claim 10, wherein the first magnetic channel includes a first channel magnetic member disposed on an radially outer side of the regenerator magnetic member, andthe cyclotron satisfies the relationship d1>d3, where d3 is a radial distance between the centerline and a radially inner end of the first channel magnetic member. 14. The cyclotron according to claim 10, wherein the second face corresponds to a radially outer end of the first portion, andthe second face is adjacent to the apex, is perpendicular to the median plane, and extends from the apex away from the median plane. 15. The cyclotron according to claim 10, wherein the regenerator magnetic member includes a second portion that has a cross-sectional shape that extends toward the median plane, the second portion located radially inward relative to the first portion, anda median-plane-facing surface of the second portion is nearer to the median plane than a median-plane-facing surface of the first portion at the first face. 16. The cyclotron according to claim 13, wherein the first channel magnetic member is in contact with the regenerator magnetic member. 17. The cyclotron according to claim 10, further comprising: a second magnetic channel that is located on an upstream side of the first magnetic channel in a direction of the beam and on a downstream side of the regenerator in the direction of the beam,wherein the second magnetic channel is formed of a coil. 18. The cyclotron according to claim 10, wherein the cyclotron is a synchrocyclotron. 19. The cyclotron according to claim 10, wherein the cross-sectional shape is such that, between an innermost end of the first portion and the apex, a distance between the first portion and the median plane monotonically decreases as a radial distance from a center of the cyclotron increases.
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이 특허에 인용된 특허 (4)
Iwanaga, Shinji, Charged particle beam treatment apparatus and method of adjusting path length of charged particle beam.
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