Preferred Label : gas-filled X-ray detector;
IUPAC definition : A cylindrical cathode with a window, an axial wire anode and an ionizable gas. The
gas may be continuously replenished giving a flow-through detector or the detector
may be sealed. Following an original ionizing event, electron multiplication occurs
through a process of gas amplification in the high electric field surrounding the
anode wire. The gain of this process is defined as the number of electrons collected
on the anode wire for each primary electron produced. For X-rays having energies higher
than the excitation potential of the detector gas, the spectral responsivity function
has a second peak in addition to the main peak that is called the escape peak. The
escape peak has a mean pulse height proportional to the difference between the photon
energy of the incident X-rays and of the spectral characteristic line of the detector
gas. A quenching gas, a molecular gas, is added to the detector gas in order to neutralize
the detector gas ions and to absorb secondary electrons as well as UV radiation resulting
from neutralization of detector gas ions. According to the potential applied to the
anode, the detector can work as an ionization chamber, proportional counter, or Geiger
counter.;
Origin ID : G02582;
See also
A cylindrical cathode with a window, an axial wire anode and an ionizable gas. The
gas may be continuously replenished giving a flow-through detector or the detector
may be sealed. Following an original ionizing event, electron multiplication occurs
through a process of gas amplification in the high electric field surrounding the
anode wire. The gain of this process is defined as the number of electrons collected
on the anode wire for each primary electron produced. For X-rays having energies higher
than the excitation potential of the detector gas, the spectral responsivity function
has a second peak in addition to the main peak that is called the escape peak. The
escape peak has a mean pulse height proportional to the difference between the photon
energy of the incident X-rays and of the spectral characteristic line of the detector
gas. A quenching gas, a molecular gas, is added to the detector gas in order to neutralize
the detector gas ions and to absorb secondary electrons as well as UV radiation resulting
from neutralization of detector gas ions. According to the potential applied to the
anode, the detector can work as an ionization chamber, proportional counter, or Geiger
counter.
