Semiconductor Counters
Posted: Mon Jul 23, 2001 6:14 pm
I'll do my best to explain this, as I just read about it myself.
In chapter 4 of a book entitled: "Progress in Fast Neutron Physics" (Philips, Marion, Risser) a device is described that counts fast neutrons with a semiconductor junction.
Instread of garbling the info in my own words, I will quote a few lines:
"The simplest adaptation of a semiconductor juntion counter to the detection of fast neutrons is to mount on the face of it a thin hydrogenous radiator, such as polyethylene, from which recoil protons may enter the counter with a 2pi geometry. Since all the protons can be recorded and the cross section is high, the efficiency of such as system may be relatively large, on the order of 10e-3."
"For neutron flux measurement this method has certain advantages. The proton recoil cross section is well known over a wide reange of neutron energies, the thickness of the hydrogenous foil and its constitution can be accurately measured, and, since the geometry is will defined, and absolute neutron flix count can be made."
It also mentions how this device is very small and can be placed close the the flux source and very little scattering of the neutron flux is encountered.
This counter is not expected to receive damage below 10e11 fast neutrons/cm3 integrated dose.
There are also neutron reactions (n,p) (n,alpha) that can take place in the silicon itself, and that background must be corrected.
Si28 seems to be the most common isotope for this type of counter. Anyone else heard of this?
Adam Parker
In chapter 4 of a book entitled: "Progress in Fast Neutron Physics" (Philips, Marion, Risser) a device is described that counts fast neutrons with a semiconductor junction.
Instread of garbling the info in my own words, I will quote a few lines:
"The simplest adaptation of a semiconductor juntion counter to the detection of fast neutrons is to mount on the face of it a thin hydrogenous radiator, such as polyethylene, from which recoil protons may enter the counter with a 2pi geometry. Since all the protons can be recorded and the cross section is high, the efficiency of such as system may be relatively large, on the order of 10e-3."
"For neutron flux measurement this method has certain advantages. The proton recoil cross section is well known over a wide reange of neutron energies, the thickness of the hydrogenous foil and its constitution can be accurately measured, and, since the geometry is will defined, and absolute neutron flix count can be made."
It also mentions how this device is very small and can be placed close the the flux source and very little scattering of the neutron flux is encountered.
This counter is not expected to receive damage below 10e11 fast neutrons/cm3 integrated dose.
There are also neutron reactions (n,p) (n,alpha) that can take place in the silicon itself, and that background must be corrected.
Si28 seems to be the most common isotope for this type of counter. Anyone else heard of this?
Adam Parker