Difference between revisions of "Elastic scattering"

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==The simulation==
[[Single thorium target]]
Neutrons are generated uniformly within a cylindrical target with their energy sampled from a Watt fission spectrum. The angle between the direction that the neutron is traveling at birth and upon exiting the target volume is calculated. The picture below illustrates the angle that was calculated. The dots at the beginning represent the location which the neutron was generated.
[[File:Fig1.png|350 px]]
Neutrons that exit the target on a trajectory which will not intersect with a detector are not counted, e.g. neutrons going towards the ceiling or the ground.
With a target radius of 3.1 mm, 8.2% of total simulated neutrons did scatter in the target (at least once), while the remaining 91.8% passed through freely. Out of all the neutrons that did scatter,  96% did so at an angle greater than 10 degrees. Because of the high tendency of neutrons to scatter at sharp angles, this analysis considers all neutrons that scatter as ''contaminated'' data.  Below is the distribution of the angle of deflection for all the neutrons that did scatter with a target radius of 3.1 mm.
Below and to the left is a plot of the total cross section of Th-232. To the right is the simulated percent contamination for a target radius of 3.1 mm. At this radius an MCNP F4 tally gave an average neutron track length within the target of 3.7 mm. The simulated percent contamination matches very closely with the probability of interaction calculated from the total cross section and average track length. All simulated neutrons are included in this plot, i.e. neutrons are not thrown away if they are traveling towards the ground or ceiling.
Below shows the percent contamination vs target radius for various different energy intervals. The energy of the neutron once it exits the target is the energy used for this data.
[[File:Contamination.png|900 px]]
[[Neutron pinball]]

Latest revision as of 00:57, 29 January 2016