Accelerator-based neutron irradiation

US 5,392,319 A
Filed: 12/22/1992
Issued: 02/21/1995
Est. Priority Date: 12/22/1992
Status: Expired due to Fees

First Claim

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1. Apparatus for generating neutrons, comprising:

a particle source having an output of charged particles directed along a predetermined pathwaya containment chamber for receiving said output of charged particles under subatmospheric pressure;

a target carriage extending to a circular periphery, mounted for rotation about a carriage axis within said containment chamber, having a target support region extending inwardly from said periphery and movable across said pathway and having an internally disposed, confined coolant chamber extending into adjacency with said target support region, said coolant chamber including an annular heat exchanger positioned adjacent to and inwardly from said target support region defining a sealed primary coolant chamber extending beneath said target support region and retaining a deuterium oxide coolant in heat exchange relationship with th radially outwardly disposed surface of said annular heat exchanger, the radially inwardly disposed surface of said annular heat exchanger defining a second coolant chamber;

a circulation conduit assembly having one end in fluid sealed connection with said target carriage secondary coolant chamber and extending outwardly from said containment chamber to a port assembly;

a target assembly retaining neutron deriving target material, located at said target support region and reactive with said charged particles within said pathway to generate neutrons and heat; and

a fluid coolant for circulation to said secondary coolant chamber through said circulation conduit assembly.

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Abstract

System and apparatus for producing neutron beams having an energy spectrum and intensity suitable for use in neutron capture therapy. The apparatus employs a rotating carriage which supports an annular target support region carrying a target material such as lithium metal. The carriage rotatably positions the target material before the pathway of charged particles generated from an accelerator course of ions. To cool the assemblage, the carriage is formed having an internally disposed chamber within which a coolant is directed from an external source. Because of the centrifugal forces imposed upon this internally-disposed coolant, it is forced to a heat exchange position adjacent the target region. The assemblage of carriage and accelerator are retained within a containment chamber under vacuum. Surrounding these components at the vicinity of the charged particle or ion pathway is a containment and moderator assembly serving to modulate the energies of generated neutrons while reflecting desired neutrons into a neutron output stream and absorbing thermal neutrons and undesired gamma radiation.

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15 Claims

1. Apparatus for generating neutrons, comprising:
- a particle source having an output of charged particles directed along a predetermined pathwaya containment chamber for receiving said output of charged particles under subatmospheric pressure;
  
  a target carriage extending to a circular periphery, mounted for rotation about a carriage axis within said containment chamber, having a target support region extending inwardly from said periphery and movable across said pathway and having an internally disposed, confined coolant chamber extending into adjacency with said target support region, said coolant chamber including an annular heat exchanger positioned adjacent to and inwardly from said target support region defining a sealed primary coolant chamber extending beneath said target support region and retaining a deuterium oxide coolant in heat exchange relationship with th radially outwardly disposed surface of said annular heat exchanger, the radially inwardly disposed surface of said annular heat exchanger defining a second coolant chamber;
  
  a circulation conduit assembly having one end in fluid sealed connection with said target carriage secondary coolant chamber and extending outwardly from said containment chamber to a port assembly;
  
  a target assembly retaining neutron deriving target material, located at said target support region and reactive with said charged particles within said pathway to generate neutrons and heat; and
  
  a fluid coolant for circulation to said secondary coolant chamber through said circulation conduit assembly.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The apparatus of claim 1 in which said fluid coolant is H₂ O.
  - 3. The apparatus of claim 1 in which said target assembly comprises a plurality of capsules removably mountable upon said target carriage at said target support region, each said capsule being formed having a cavity within which said neutron deriving target material is retained, each said cavity having a lower disposed base extending through said target support region for direct, heat exchange association with said deuterium oxide coolant;
    - and each said cavity being sealingly covered by a thin overlay material having a thickness and atomic number selected to permit substantial passage of said charged particles therethrough.
  - 4. The apparatus of claim 3 in which said overlay material is a foil mounted above said target material a predetermined distance to define a gap dimensioned to accommodate a thermally induced expansion of said target material.
  - 5. The apparatus of claim 3 in which said overlay material is aluminum having a thickness of less than about 25 microns.
  - 6. The apparatus of claim 3 in which said overlay material is beryllium having a thickness of less than about 50 microns.

7. Apparatus for generating neutrons, comprising:
- a particle source having an output of charged particles directed along a predetermined pathway;
  
  a target carriage mounted for rotation about a carriage axis, having an outer periphery, and a target support region extending inwardly from said periphery;
  
  a target assembly including a plurality of capsules mountable upon said target carriage at said target support region, each said capsule being formed having a cavity within which a meltable neutron deriving target material is disposed, each said cavity being sealingly covered by a thin material overlay having a thickness and atomic number selected to permit substantial passage of said charged particles therethrough for impingement upon said target material to effect neutron generation; and
  
  a cooling assembly for removing heat generated at said target support region by said charged particle impingement.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The apparatus of claim 7 in which said overlay material is aluminum having a thickness of less than about 25 microns.
  - 9. The apparatus of claim 8 in which said aluminum overlay is a foil mounted over each said capsule and spaced above said target material a predetermined distance to define a gap dimensioned to accommodate a thermally induced expansion of said target material.
  - 10. The apparatus of claim 8 in which said capsule gap is at subatmospheric pressure.
  - 11. The apparatus of claim 7 in which said overlay material is beryllium having a thickness of less than about 50 microns.

12. The apparatus of claim 21 in which:
- said cooling assembly includes a coolant chamber configured within said target carriage to retain a deuterium oxide coolant in heat exchange relationship with said target assembly at said target support region; and
  
  said target assembly capsules are removably mounted upon said target carriage, each said capsule cavity having a lower disposed base extending through said target support region for direct, heat exchange association with said coolant.
- View Dependent Claims (13, 14, 15)
- - 13. The apparatus of claim 12 in which said overlay material is a foil mounted above said target material a predetermined distance to define a gap dimensioned to accommodate a thermally induced expansion of said target material.
  - 14. The apparatus of claim 12 in which said overlay material is aluminum having a thickness of less than about 25 microns.
  - 15. The apparatus of claim 12 in which said overlay material is beryllium having a thickness of less than about 50 microns.

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Current Assignee
Eggers & Associates, Inc.
Original Assignee
Eggers & Associates, Inc.
Inventors
Eggers, Philip E.
Primary Examiner(s)
Wasil, Daniel D.

Application Number

US07/994,942
Time in Patent Office

791 Days
Field of Search

376/115, 376/190, 376/191, 376/194, 376/196, 376/199, 376/151, 250/282, 250/390.1
US Class Current

376/194
CPC Class Codes

A61N 2005/109   Neutrons

H05H 3/06   Generating neutron beams ta...

H05H 6/00   Targets for producing nucle...

Accelerator-based neutron irradiation

First Claim

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Abstract

Citations

15 Claims

Specification

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Accelerator-based neutron irradiation

First Claim

1 Assignment

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Litigations

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Accused Products

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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