Difference between revisions of "2NCorr SPDP Introduction"

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<li style="display: inline-block;"> [[File:2N Corr OpeningAngleCf252.png|thumb|400px| Measured opening angle distribution of neutrons from the spontaneous fission of Cf252.]]</li>
 
<li style="display: inline-block;"> [[File:2N Corr OpeningAngleCf252.png|thumb|400px| Measured opening angle distribution of neutrons from the spontaneous fission of Cf252.]]</li>
  
For this reason, every measured distribution is made meaningful by normalizing against a "control" distribution. This is done by diving the values of the measured distribution by the control distribution on a bin-by-bin basis. For <math>\theta_{nn}</math>, the control distribution is made by looking at the events from pairs of two pulses, such that the the two pulses occurred within a few 100 ms of each other. If there is a neutron event in both of the pulses in a given pulse pair, then the opening angle between the two events is calculated. Since no information can be shared between the neutrons of different pulses, the control distribution is free of any two-neutron correlations, while still being subject to the exact same effects of detector geometry and efficiency as the distribution of truly correlated neutron pairs. So what is meant by "angular correlation" here, is the measured rate relative to a totally uncorrelated neutron source. The plot below is the same data from the plot above, after normalization to an uncorrelated source.  
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For this reason, every measured distribution is made meaningful by normalizing against a "control" distribution. This is done by diving the values of the measured distribution by the control distribution on a bin-by-bin basis. For <math>\theta_{nn}</math>, the control distribution is made by looking at the events from pairs of two pulses, such that the the two pulses occurred within a few 100 ms of each other. If there is a neutron event in both of the pulses in a given pulse pair, then the opening angle between the two events is calculated. Since no information can be shared between the neutrons of different pulses, the control distribution is free of any two-neutron correlations, while still being subject to the exact same effects of detector geometry and efficiency as the distribution of truly correlated neutron pairs. So what is meant by "angular correlation" here, is the measured rate relative to a totally uncorrelated neutron source. The plot below is the same data from the plot above, but after normalization to an uncorrelated source.  
  
 
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Revision as of 23:16, 19 January 2018

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The calculation of angular correlation

The neutron efficiency and acceptance of our detector array varies highly non-uniformly over the range of two-neutron opening angles ([math]\theta_{nn}[/math]). This is due to the detector array's non-spherically symmetric geometry, and to its varying neutron detection efficiency as a function of both position and energy (see figure).

  • Measured opening angle distribution of neutrons from the spontaneous fission of Cf252.
  • For this reason, every measured distribution is made meaningful by normalizing against a "control" distribution. This is done by diving the values of the measured distribution by the control distribution on a bin-by-bin basis. For [math]\theta_{nn}[/math], the control distribution is made by looking at the events from pairs of two pulses, such that the the two pulses occurred within a few 100 ms of each other. If there is a neutron event in both of the pulses in a given pulse pair, then the opening angle between the two events is calculated. Since no information can be shared between the neutrons of different pulses, the control distribution is free of any two-neutron correlations, while still being subject to the exact same effects of detector geometry and efficiency as the distribution of truly correlated neutron pairs. So what is meant by "angular correlation" here, is the measured rate relative to a totally uncorrelated neutron source. The plot below is the same data from the plot above, but after normalization to an uncorrelated source.

    • Angular correlation of neutrons (E>1.5 MeV) from the SF of Cf252. In this case, the normalizing distribution is taken from neutron pairs corresponding to separate fission event triggers, instead of separate pulses.



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