Band-shaped chopper for a particle beam
First Claim
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1. A chopper for a particle beam, comprising:
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
at least one drive source for moving the control element through the particle beam in such a way that the same impinges on regions A and B in a chronologically alternating manner,wherein the control element has a band-shaped design and is non-positively seated against the outer circumference of at least one element that can be caused to rotate by the drive source, andwherein the control element can be expanded in the movement direction.
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Abstract
A chopper for a particle beam comprises at least one control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A, and at least one drive source for moving the control element through the particle beam in such a way that the beam impinges on regions A and B in a chronologically alternating manner. The control element has a band-shaped design and is non-positively seated against the outer circumference of at least one element that can be caused to rotate by the drive source. It was found that the chopper can have a significantly more space-saving design when the control element is designed as a band-shaped element than as a wheel-shaped or ring-shaped chopper according to the known art. In particular, the drive source, which is bulky compared to the control element, can be disposed spatially separated from the beam path, while the band itself transmits the force of the drive source.
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Citations
7 Claims
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1. A chopper for a particle beam, comprising:
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
at least one drive source for moving the control element through the particle beam in such a way that the same impinges on regions A and B in a chronologically alternating manner,wherein the control element has a band-shaped design and is non-positively seated against the outer circumference of at least one element that can be caused to rotate by the drive source, and wherein the control element can be expanded in the movement direction. - View Dependent Claims (3)
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
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2. A chopper for a particle beam, comprising:
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
at least one drive source for moving the control element through the particle beam in such a way that the same impinges on regions A and B in a chronologically alternating manner,wherein the control element has a band-shaped design and is non-positively seated against the outer circumference of at least one element that can be caused to rotate by the drive source, and wherein a damping element is disposed in the force fit between the drive source and the control element.
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
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4. A chopper for a particle beam, comprising:
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
at least one drive source for moving the control element through the particle beam in such a way that the same impinges on regions A and B in a chronologically alternating manner,wherein the control element has a band-shaved design and is non-positively seated against the outer circumference of at least one element that can be caused to rotate by the drive source, and wherein the control element is guided in at least two layers through the beam path of the particle beam and comprises, in each case, at least two regions A and two regions B, wherein these regions are disposed with respect to each other in such a way that, in at least one configuration of the control element that can be established by the drive source, at least a portion of the particle beam passes through a respective region A in both layers. - View Dependent Claims (5, 6)
- at least one flexible control element, which is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A; and
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7. A method for operating a chopper for a particle beam, the chopper comprising:
- at least one flexible control element and at least one drive source, wherein the control element is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A, and wherein the control element has a band-shaped design and is non-positively seated against an outer circumference of at least one element that can be caused to rotate by the at least one drive source, the method comprising;
moving the control element through the particle beam by the at least one drive source in such a way that the particle beam impinges on regions A and B in a chronologically alternating manner; and operating the drive source at a different movement speed for the configuration of the control element in which at least a subregion of the particle beam passes exclusively through region A of the control element than in the configuration of the control element in which the particle beam completely impinges on a region B.
- at least one flexible control element and at least one drive source, wherein the control element is divided into at least two regions A and B, wherein region B is less transparent to the particle beam than region A, and wherein the control element has a band-shaped design and is non-positively seated against an outer circumference of at least one element that can be caused to rotate by the at least one drive source, the method comprising;
Specification
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Current AssigneeForschungszentrum Jã¼Lich GmbH (Bundesrepublik Deutschland)
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Original AssigneeForschungszentrum Jã¼Lich GmbH (Bundesrepublik Deutschland)
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InventorsStronciwilk, Peter, Ioffe, Alexander
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Primary Examiner(s)Vanore, David A
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Application NumberUS14/434,612Publication NumberTime in Patent Office957 DaysField of Search250/343, 250/203.2, 250/341.1, 250/396.R, 378/160, 378/34US Class Current1/1CPC Class CodesG21K 1/043 changing time structure of ...
