Linear ion accelerator
First Claim
Patent Images
1. An APF linear ion accelerator comprising:
- an accelerator cavity configured to accelerate a traveling ion beam by a radio frequency electric field;
a radio frequency power supply device configured to generate the radio frequency electric field;
a coaxial tube and a coupler configured to supply the radio frequency electric field generated by the radio frequency power supply device to the acceleration cavity; and
a plurality of cylindrical electrodes having hollow central axial portions and linearly arranged in the acceleration cavity in the axial direction with intervening acceleration gaps to have predetermined intervals,wherein the radio frequency electric field supplied to the acceleration cavity via the coaxial tube and the coupler is applied to the acceleration gaps, which gradually accelerates the velocity of an ion beam that passes through the hollow central axial portions of the cylindrical electrodes, thereby extracting the ion beam injected at a predetermined injection energy until a predetermined extraction energy,wherein each of the cylindrical electrode has an electrode length in an arrangement direction of the cylindrical electrodes, the electrode length being a sum of a velocity dependent electrode length and an oscillation component, the velocity dependent electrode length designated in proportional to a traveling velocity in the cylindrical electrode determined as a velocity at which the ion beam is to pass through the cylindrical electrode, the oscillation component obtained by changing an electrode length to positive or to negative with respect to the velocity dependent electrode length pursuant to a predetermined cycle and depending on a position of the plurality of cylindrical electrodes,wherein the cylindrical electrodes in each half of the predetermined cycle include an electrode group containing at least one cylindrical electrode having an electrode length of which the absolute value of the oscillation component is larger than a phase length defined by a length in a direction of accelerating the ion beam which corresponds to half of a predesignated phase width in the direction of accelerating the ion beam, andwherein a number of cylindrical electrodes contained in the electrode group is smaller than a number of cylindrical electrodes allotted to each half of the predetermined cycle, and is equal to or greater than one and equal to or smaller than three.
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Abstract
The electrode lengths of a plurality of electrodes linearly arranged in an acceleration cavity are proportional to the velocity of a traveling ion beam. Further, the electrode length is so designated that, in each half of a predetermined cycle in the ion beam direction of travel, the absolute value of a difference, relative to a length that is proportional to the beam traveling velocity is equal to or greater than a value corresponding to the phase width of the traveling ion beam, is provided for electrodes that do not exceed three units and that are fewer than electrodes allotted to half the predetermined cycle.
41 Citations
4 Claims
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1. An APF linear ion accelerator comprising:
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an accelerator cavity configured to accelerate a traveling ion beam by a radio frequency electric field; a radio frequency power supply device configured to generate the radio frequency electric field; a coaxial tube and a coupler configured to supply the radio frequency electric field generated by the radio frequency power supply device to the acceleration cavity; and a plurality of cylindrical electrodes having hollow central axial portions and linearly arranged in the acceleration cavity in the axial direction with intervening acceleration gaps to have predetermined intervals, wherein the radio frequency electric field supplied to the acceleration cavity via the coaxial tube and the coupler is applied to the acceleration gaps, which gradually accelerates the velocity of an ion beam that passes through the hollow central axial portions of the cylindrical electrodes, thereby extracting the ion beam injected at a predetermined injection energy until a predetermined extraction energy, wherein each of the cylindrical electrode has an electrode length in an arrangement direction of the cylindrical electrodes, the electrode length being a sum of a velocity dependent electrode length and an oscillation component, the velocity dependent electrode length designated in proportional to a traveling velocity in the cylindrical electrode determined as a velocity at which the ion beam is to pass through the cylindrical electrode, the oscillation component obtained by changing an electrode length to positive or to negative with respect to the velocity dependent electrode length pursuant to a predetermined cycle and depending on a position of the plurality of cylindrical electrodes, wherein the cylindrical electrodes in each half of the predetermined cycle include an electrode group containing at least one cylindrical electrode having an electrode length of which the absolute value of the oscillation component is larger than a phase length defined by a length in a direction of accelerating the ion beam which corresponds to half of a predesignated phase width in the direction of accelerating the ion beam, and wherein a number of cylindrical electrodes contained in the electrode group is smaller than a number of cylindrical electrodes allotted to each half of the predetermined cycle, and is equal to or greater than one and equal to or smaller than three. - View Dependent Claims (2, 3, 4)
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Specification