Hello @nadeeraBUL2020,
Thank you for sending the input file.
First of all let’s try to understand a bit more the cards that you are trying to use:
EVENTBIN: If you have a bit of experience with the USRBIN card, the is basically the same, but
the binning data are printed at the end of each event (primary history).
From the manual you can see the answer for your first question:
"Does the number 756 represent the counts related to that particular energy? "
Not Really, if you look at these lines in the manual:
756 is the cell index of the cell where the particle #983 deposited energy.
and 8.967714966274798E-04 is the energy deposited [GeV]
DETECT: Just to be sure that you know what this card does, here you are “scoring the energy deposition on an event by event basis”. The output that you obtain is the spectrum of energy deposited, normalised by the number of primary particles. Here you are not getting the information of every particle in the output. Thus, It’s not the best option of what you are trying to do.
The question that we need to answer first is, how do we define a pulse? (Or at least for your problem)
We can say that we have a pulse when "the energy deposited by a particle is above a particular energy threshold
In that case, you can use easily use EVENTBIN biasing to obtain all the pulses. You will only need to process by yourself all the hits with an energy deposited above a value that you defined. (BTW, you don’t event need to add bins for your mesh, Nx=Ny=Nz=1)
Another option is with mgdraw. I leave you this thread where you can find information about this routine. But in a few words, here you can obtain the information of your particles on every step, and in that way you can dump what you need.
Finally, in order to define the isotope that you want, the manual tells us that we have to add an extra card → HI-PROPErt
With that card you can choose the isotope that you want.
Ok, I hope this is useful.
Let me know if you have any other question.
Cheers!
André