# Method 1:

## Calculation

When electron beam hit the radiator, TDC start to count. It will take gamma 14 ns to reach the target. Then after some time , neutron arrive to the detectors.

Let's call the the total time from electron beam hit the radiator to neutron to be detected is . So,

where d is the distance between detector and target, v is speed of neutron. So,

where should be in the unit of nano second.

or click on:

# Method 2: Using time difference in two peaks

## Calculation

If we assume gamma flash is coming from target, then by time difference in gamma peak and neutron peak, we can tell the energies in neutrons.

: Neutron time of flight

: Gamma time of flight

d: Distance between detector and target.

d for polarized case: = 91.25 inches = 231.775 cm.

d for unpolarized top detector: =96.25 inches = 244.745 cm.

d for unpolarized side detector: =91.39 inches = 232.131 cm.

)

=>

=

={1- }

=939.5656*{1- } (MeV)

Where d is geven above.

## Data

For data go to Link below:

or click on:

### Energy vs Channel

We calibrated ADC [[1]] and using those data we can tell energy of neutron by its relative channel number difference from gamma peak.

There a two scale for ADC. One is 2000 ns, the other one is 5000ns.

For 2000 ns scale:

For 5000 ns scale:

## Example Analysis

Channel difference in two peaks is about 260 channels. This corresponds to 47 ns, which is 9.5 MeV neutron kinetic energy.

4.9 MeV neutrons come 68 ns later, which corresponds to 380 channels difference.