Difference between revisions of "Neutron pinball"

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Go back [[Elastic scattering in Th target]]
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==The Simulation==
 
==The Simulation==
Photons with a Bremsstrahlung energy distribution are incident upon 64 4 mm dia. thorium cylinders with 1 cm center to center spacing (see the neutron flux plot below). Photofission neutrons were simulated using the MCNPX ACE model. Upon the creation of a neutron, its initial direction of travel is logged and compared with its direction of travel when it leaves the simulation area. The target configuration pictured below is surrounded by a r=100cm cylinder (axis going into the page) of air. All cylinders have a height of 76 cm.  
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Photons with a Bremsstrahlung energy distribution are incident upon 64 thorium cylindrical targets. All thorium targets have 1 cm center-to-center spacing, a dia. of 0.4 cm, and a height of 8 cm. The target geometry is shown in the neutron flux plot below. The targets are surrounded by a cylindrical room filled with air, which has a radius equal to the distance between the target and the detectors (150 cm), and a height equal to the vertical extent of the detectors (76 cm). Upon the creation of a neutron from photofission, its initial direction of travel is logged. Once the neutron exits the cylindrical room, its direction of travel as seen by a detector placed room's edge, is compared to it's initial direction of travel,  giving a neutron deflection angle.
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[[File:Neutronflux.png|400 px|thumb|center|A uniform plane source of Bremsstrahlung photons, traveling from left to right, induce photofission in the targets. The rate of neutron production is represented by the color. ]]
  
[[File:Neutronflux.png|400 px|thumb|center|Prompt neutron flux from photofission]]
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==Results==
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12% of neutrons scattered in the thorium cylinders alone, and 14% scattered when air was included. The histogram below reveals that if a neutron did scatter, it most likely did so at an unacceptable angle. Neutrons that didn't undergo any interaction are not included in this plot.
  
==Result==
 
15% of neutrons scattered in the thorium cylinders alone, and 17% when the air is included.
 
  
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[[File:Deflection(airandTh).png|550 px|thumb|center|Non-zero deflection angles of neutrons]]
  
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==Effect of room air==
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About 2% of neutrons were scattered in the air. Below is a histogram of neutron deflection angles when neutron-thorium interaction was turned off. Neutrons that didn't undergo any interaction are not included in this plot. 
  
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[[File:AirDeflection.png|700 px|thumb|center|Non-zero deflection angles of neutrons by air]]
  
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==Octagonal target placement ==
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The geometry shown below provides an unobstructed line of sight from every target, to the entire face of every detector. The cylindrical targets have a diameter of 2 mm. A target is placed at each of the eight vertices of an octagon with a radius of 1.5 cm, along with a target at the center. When using thorium as the target material, 3.2% of neutrons were deflected from within the cylinders. 
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[[File:TargetGeom.png|caption|thumb|center|1050px|(A) The grey regions represent the line of sight from each target to the entire face of each detector.
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(B) A top down view of the geometry, to scale. (C) A close up reveals how this geometry provides an unobstructed line of sight from every target, to the entire face of every detector. ]]
  
Go back [[Elastic scattering]]
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Go back [[Elastic scattering in Th target]]

Latest revision as of 09:59, 27 May 2016

Go back Elastic scattering in Th target


The Simulation

Photons with a Bremsstrahlung energy distribution are incident upon 64 thorium cylindrical targets. All thorium targets have 1 cm center-to-center spacing, a dia. of 0.4 cm, and a height of 8 cm. The target geometry is shown in the neutron flux plot below. The targets are surrounded by a cylindrical room filled with air, which has a radius equal to the distance between the target and the detectors (150 cm), and a height equal to the vertical extent of the detectors (76 cm). Upon the creation of a neutron from photofission, its initial direction of travel is logged. Once the neutron exits the cylindrical room, its direction of travel as seen by a detector placed room's edge, is compared to it's initial direction of travel, giving a neutron deflection angle.

A uniform plane source of Bremsstrahlung photons, traveling from left to right, induce photofission in the targets. The rate of neutron production is represented by the color.

Results

12% of neutrons scattered in the thorium cylinders alone, and 14% scattered when air was included. The histogram below reveals that if a neutron did scatter, it most likely did so at an unacceptable angle. Neutrons that didn't undergo any interaction are not included in this plot.


Non-zero deflection angles of neutrons

Effect of room air

About 2% of neutrons were scattered in the air. Below is a histogram of neutron deflection angles when neutron-thorium interaction was turned off. Neutrons that didn't undergo any interaction are not included in this plot.

Non-zero deflection angles of neutrons by air

Octagonal target placement

The geometry shown below provides an unobstructed line of sight from every target, to the entire face of every detector. The cylindrical targets have a diameter of 2 mm. A target is placed at each of the eight vertices of an octagon with a radius of 1.5 cm, along with a target at the center. When using thorium as the target material, 3.2% of neutrons were deflected from within the cylinders.

(A) The grey regions represent the line of sight from each target to the entire face of each detector. (B) A top down view of the geometry, to scale. (C) A close up reveals how this geometry provides an unobstructed line of sight from every target, to the entire face of every detector.

Go back Elastic scattering in Th target