Difference between revisions of "Theoretical analysis of 2n accidentals rates"

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! Variable !! Description
 
! Variable !! Description
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|<math>N</math>
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|A random variable for the number of neutron producing reactions occurring in a single pulse. 
 
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|<math>V_i</math>
 
|<math>V_i</math>
|A random variable equal to the number of correlated neutrons produced by the <math>i\text{th}</math> neutron-producing reaction in a single given pulse. The index <math>i</math> is used to distinguish between any number of distinct and independent reactions in a given pulse, thus <math>V_i'{s}</math> are identical and independently distributed random variables
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|A random variable for the number of correlated neutrons produced by the <math>i\text{th}</math> neutron-producing reaction in a given pulse. The index <math>i</math>, ranging from 1 to <math>N</math>, is used to distinguish between each of the distinct and independent reactions in a given pulse, thus all the <math>V_i'{s}</math> are identical and independently distributed random variables
 
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==Probability of detecting a given pair of neutrons in a single pulse==
 
==Probability of detecting a given pair of neutrons in a single pulse==

Revision as of 03:23, 20 January 2018

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Introduction

A given photon pulse may cause multiple neutron-producing reactions, ranging from zero to "infinity" reactions. The number of neutron-producing reactions in a pulse is hereafter denoted by [math]N[/math]. Being the number of neutron-producing reactions actually occurring per pulse, [math]N[/math] is assumed to follow the Poissonian distribution as a limiting case of the binomial distribution. Each neutron-producing interaction is said to produce [math]V_{i}[/math] correlated neutrons, where the random variable [math]V_{i}[/math] is the distribution of the number of neutrons produced in a single neutron-producing reaction. Each of the [math]V_i\text{'}s[/math] are independent and identically distributed random variables, so the purpose of the subscript is to distinguish between several distinct neutron-producing interactions which may occur in a single pulse.

The beam has a Bremsstrahlung end point of 10.5 MeV, which energetically allows for only two possible neutron-producing interactions, 1n-knochout and photofission. Thus, [math]V_{i}[/math] is equal to the photofission neutron multiplicity plus a contribution at [math]V_{i}=1[/math] from 1n-knockout events. The analysis that follows does not need to distinguish between 1n-knockout events and photofission events that emit a single neutron. In both cases, a single neutron is emitted and is uncorrelated with all and any other neutrons.

Variable reference

Variable Description
[math]N[/math] A random variable for the number of neutron producing reactions occurring in a single pulse.
[math]V_i[/math] A random variable for the number of correlated neutrons produced by the [math]i\text{th}[/math] neutron-producing reaction in a given pulse. The index [math]i[/math], ranging from 1 to [math]N[/math], is used to distinguish between each of the distinct and independent reactions in a given pulse, thus all the [math]V_i'{s}[/math] are identical and independently distributed random variables

Probability of detecting a given pair of neutrons in a single pulse

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