Difference between revisions of "D2O photodisintegration simulation"
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==Neutron spectra separation== | ==Neutron spectra separation== | ||
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The result of GEANT4 simulation of neutron photoproduction on deuterium and oxygen-16 is presented below: | The result of GEANT4 simulation of neutron photoproduction on deuterium and oxygen-16 is presented below: | ||
Revision as of 04:19, 11 April 2011
Neutron spectra separation
The result of GEANT4 simulation of neutron photoproduction on deuterium and oxygen-16 is presented below:
Neutron yield () from (90% concentration) in reaction is presented below. Initially brem photons with 25 MeV end-point energy were thrown on the target. 410 neutrons initially produced got absorbed in the target (E=0MeV) and 2509 neutrons will likely escape the target. Figure in blue on the left is the total energy spectrum of neutrons created in reaction . Figure in blue on the right is the neutron energy spectrum with energy cut applied.
Neutron yield () from (90% concentration) in reaction is presented below. Initially brem photons with 25 MeV end-point energy were thrown on the target. 857 neutrons initially produced got absorbed in the target (E=0MeV) and 16799 neutrons will likely escape the target. Figure in black on the left is the total energy spectrum of neutrons created in reaction . Figure in blue on the right is the neutron energy spectrum with energy cut applied.
So, if we apply the energy cut in neutron spectrum which is a sum of neutrons coming from and reactions at (0MeV)<E<=5MeV, then the ratio of "unpolarized" neutrons from and "polarized" neutrons from will be . In the same time we will loose of the "good" high energy neutrons produced in reaction. Binning is the same for all the plots.
I will verify if those spectra and all the ratios are the same in the case where we use the geometrical constrains applied by the detectors placement.