Difference between revisions of "2n Position resolution"

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[[File:deconv_data_fit.png | 600px]]
 
[[File:deconv_data_fit.png | 600px]]
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As can be seen the gaussian fit parameter "w" is equal to the parameter "Sigma3" of my_fcn fit of the experimental data.
  
  
 
Hence, any coordinate of the neutron hit has the following uncertainty in: sigma = 2.139 ns and its value converted into cm is 2.129 ns x 7.24 cm/ns = 15.4 cm. The total length of the active area of the neutron detector is 75 cm.
 
Hence, any coordinate of the neutron hit has the following uncertainty in: sigma = 2.139 ns and its value converted into cm is 2.129 ns x 7.24 cm/ns = 15.4 cm. The total length of the active area of the neutron detector is 75 cm.

Revision as of 21:49, 1 May 2013

FFT algorithm test

Convolution deconvolution stepFcn.png

If we take narrower response function we will get

Convolution deconvolution stepFcn2.png

FFT application

Experimental distribution of TDC difference time spectrum (dots) and gaussian fit of the data (line) are shown below:

Experimental data DetG gauss.png

The fit of the experimental data with a function which is the result of convolution of the detector resolution function and detector response function is shown below

Experimental data DetG fftFit.png

Deconv data fit.png

As can be seen the gaussian fit parameter "w" is equal to the parameter "Sigma3" of my_fcn fit of the experimental data.


Hence, any coordinate of the neutron hit has the following uncertainty in: sigma = 2.139 ns and its value converted into cm is 2.129 ns x 7.24 cm/ns = 15.4 cm. The total length of the active area of the neutron detector is 75 cm.