Difference between revisions of "2n Position resolution"
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[[File:FFT_sig_resp_deconv_filter.png | 600 px]] | [[File:FFT_sig_resp_deconv_filter.png | 600 px]] | ||
| − | Hence, any coordinate of the neutron hit has the following uncertainty in: sigma = | + | Hence, any coordinate of the neutron hit has the following uncertainty in: sigma = 2.8 ns and its value converted into cm is 2.8 ns x 7.41 cm/ns = 20.7 cm. The total length of the active area of the neutron detector is 75 cm. |
Revision as of 16:40, 5 April 2013
Experimental distribution of TDC difference time spectrum (blue) and ideal response function (red) are shown below:
Raw data of FFT deconvolution of signal function and response function is presented below:
It can be seen the high frequency noise component in the raw data. Applying low pass filtering we could get the deconvoluted data:
Hence, any coordinate of the neutron hit has the following uncertainty in: sigma = 2.8 ns and its value converted into cm is 2.8 ns x 7.41 cm/ns = 20.7 cm. The total length of the active area of the neutron detector is 75 cm.