The effects of dead time loss of the 13 element Ge detector (Canberra,
GL0110), which result from the associated electronics, were studied.
Distortions and noise attributable to dead-time losses are found to be
substantial even for dilute metalloprotein samples and modest count r
ates. The dead time loss can introduce two types of non-linear problem
s into the X-ray Absorption Fine Structure (XAFS) data collection. Fir
st, the I0 fluctuation cannot be fully divided out; second, XAFS spect
ra for concentrated samples can be substantially reduced. The dead tim
e loss calibration showed that the response of the system can be bette
r approximated by the first order approximation of the paralysable and
the non-paralysable models rather than the two models themselves. The
dead time correction using this algorithm produces satisfactory resul
ts with the correction error generally within the statistical error of
photon counting. This will permit reliable XAFS data collection at hi
gh Incident Count Rate greatly improving the counting efficiency. The
dependences of the dead time and the energy resolution on the shaping
time of the shaping amplifier were also examined.