Difference between revisions of "2-Neutron Correlation"
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* <math>\Delta \Omega = 0.0001 Sr</math> | * <math>\Delta \Omega = 0.0001 Sr</math> | ||
− | ; Now, what neutron singles rate into the detector | + | ; Now, what neutron singles rate into the detector should correspond to 1 fission per pulse? |
* 1 fission per pulse corresponds to 2.3 neutrons/fission = 2.3 neutrons/pulse | * 1 fission per pulse corresponds to 2.3 neutrons/fission = 2.3 neutrons/pulse | ||
− | * The number of neutrons hitting the detector per pulse is found as <math>2.3*\frac{\Delta \Omega}{4\pi} | + | * The number of neutrons hitting the detector per pulse is found as <math>2.3*\frac{\Delta \Omega}{4\pi}</math> |
+ | * The number detected per pulse can be found as <math>2.3*\frac{\Delta \Omega}{4\pi}*\epsilon_0</math> | ||
[https://wiki.iac.isu.edu/index.php/User:Jasenswanson Go Back] | [https://wiki.iac.isu.edu/index.php/User:Jasenswanson Go Back] |
Revision as of 20:51, 29 May 2012
Big Detector Solid Angle Calculations
- MCNPX Simulation
- 14 MeV neutron source, emitted isotropically (
- Detector placed 1m away from source
- face of the detector is 15.24cm x 76.2cm, and 3.6cm deep
The solid angle can be found from the number of particles hitting the detector as:
- Results
- 1E9 Neutrons generated
- 8618287 neutrons hit the detector
- As a test to verify our results
- We change the detector size to 2cm by 2cm and used 1E9 neutrons again
- 32061 neutrons struck the detector
- And, as a second test to verify our results
- We change the detector size to 1cm by 1cm and used 1E9 neutrons again
- 7965 neutrons struck the detector
- Now, what neutron singles rate into the detector should correspond to 1 fission per pulse?
- 1 fission per pulse corresponds to 2.3 neutrons/fission = 2.3 neutrons/pulse
- The number of neutrons hitting the detector per pulse is found as
- The number detected per pulse can be found as