A multichannel monolithic Ge detector system for fluorescence x-ray absorption spectroscopy

Abstract

The construction and performance characteristics of a monolithic quad‐pixel Ge detector designed specifically for fluorescence x‐ray absorption spectroscopy (XAS) at synchrotron radiation sources is described. The detector semiconductor element has an active surface area of 4.0 cm² that is electrically separated into four 1.0 cm² pixels, with little interfacial dead volume. The spatial response of the array demonstrates that cross‐talk between adjacent pixels is less than 10% for 5.9‐keV photons that fall within 0.5 mm of the pixel boundaries. The detector electronics system utilizes preamplifiers built at LBNL with commercial Tennelec Model TC 244 amplifiers. Employing an ⁵⁵Fe test source (Mn K_α, 5.9 keV), energy resolution of better than 200 eV is achieved with a 4 msec peaking time. At 0.5 msec peaking time, pulse pileup results in a 75% throughput efficiency for an incoming count rate of 100 kHz. Initial XAS fluorescence measurements at the beamline 4 wiggler end stations at SSRL show that the detector system has several advantages over commercially available x‐ray spectrometers for low‐concentration counting applications.