Dear Shliu,
You're still pushing the code to its limits!
So send me that last distribution and I'll take a look.
Regards,
Didier
Programme stuck in superposed field maps
Re: Programme stuck in superposed field maps
Finally, it works well now. Thank you very much!
I notice that it runs much slower in the first 0.1/0.25/0.5 meters comparing with downstream running, so are there any special considerations on that?
BTW, what's the boundary of the input distribution for divergence and dp/p?
Kinds,
shliu
I notice that it runs much slower in the first 0.1/0.25/0.5 meters comparing with downstream running, so are there any special considerations on that?
BTW, what's the boundary of the input distribution for divergence and dp/p?
Kinds,
shliu
Re: Programme stuck in superposed field maps
Dear Shliu,
The closer your beam dispersion is to -50%, the longer it will take to get from one position to another, because in this specific transport mode (SUPERPOSE_MAP_OUT, field map curving trajectory), transport progresses in time and not in z. So when some particles have very low energy, it takes a long time to move from one position to the next. In addition, you lose more and more particles, especialy them being energy very low, which also speeds up transport.
So the limit is normally dp/p=-50%, i.e. E~=0 MeV.
Regards,
Didier
The closer your beam dispersion is to -50%, the longer it will take to get from one position to another, because in this specific transport mode (SUPERPOSE_MAP_OUT, field map curving trajectory), transport progresses in time and not in z. So when some particles have very low energy, it takes a long time to move from one position to the next. In addition, you lose more and more particles, especialy them being energy very low, which also speeds up transport.
So the limit is normally dp/p=-50%, i.e. E~=0 MeV.
Regards,
Didier