Difference between revisions of "JB Anaysis"

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==Energy==
 
==Energy==
Neutron Energy:    <math>\frac{1}{2}m_{n}\left(\frac{in}{ns}\right)^2=3.372\left(\frac{42}{t}\right)^2 MeV</math>
+
Neutron Energy:    <math>\n\frac{1}{2}m_{n}\left(\frac{in}{ns}\right)^2=3.372\left(\frac{42}{t}\right)^2 MeV</math>
  
Watt distribution:  \n<math>Ce^{-aE^'}\sinh\left(\sqrt{bE^'}\right)=0.70767 e^{-0.883802 E^'}\sinh \left(\sqrt{E^'}\right)</math>
+
Watt distribution:  <math>\nCe^{-aE^'}\sinh\left(\sqrt{bE^'}\right)=0.70767 e^{-0.883802 E^'}\sinh \left(\sqrt{E^'}\right)</math>
  
 
[[File:DEt4NeutronEnergy.png| 500 px]]
 
[[File:DEt4NeutronEnergy.png| 500 px]]

Revision as of 23:41, 14 August 2015

DU runs

TDC spectrum

Detector 1

Det1TDC.png

Detector 2

Det2tdc.png

Detector 3

Det3DTC.png

Detector 4

Det4TDc.png

Target in vs. target out

Gamma peak is revealed by comparing target in and target out runs. (open the file to see it clearly) Det4Gammas.png

2nCor_44#Analysis

ToF

[math]Neutron TOF=\frac{PMT_{top}+PMT_{bottom}}{2}-t_{\gamma peak}+\gamma_{TOF}[/math] Det4ToF.png

Energy

Neutron Energy: [math]\n\frac{1}{2}m_{n}\left(\frac{in}{ns}\right)^2=3.372\left(\frac{42}{t}\right)^2 MeV[/math]

Watt distribution: [math]\nCe^{-aE^'}\sinh\left(\sqrt{bE^'}\right)=0.70767 e^{-0.883802 E^'}\sinh \left(\sqrt{E^'}\right)[/math]

DEt4NeutronEnergy.png

EngvsWqatt.jpg WattVsEng.png

Second Hit

Odd TDC spectrum in the second hit:

SecondHit1.png

Applying cuts based on TDC difference could help:

SecondHit.png

Opening angles

Uncorrelated distribution from detectors 1-4:

Snip20150729 3.png

Analyzing 5653446 pulses from DU runs, I was able to find 349 two-neutron events in detectors 1-4. CorrOverUncorR.png

As a test I did the same for gamma events:

Gammacorrelation.png