H. B. Barber, F. Augustine, H. Barrett, E. Dereniak, J. Eskin, D. G. Marks, K. Matherson, J. Venzon, J. Woolfenden, E. Young
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High-resolution imaging using a 48/spl times/48 Ge array with multiplexer readout
We are developing an imaging technique for nuclear medicine that makes use of semiconductor arrays having a large number of separate pixels on a single slab that are read out by a monolithic integrated circuit called a multiplexer. The device is similar to a focal-plane array used for infrared imaging. Here we present results verifying the concept by using a Hughes 48/spl times/48 Ge PIN focal-plane array as a gamma-ray imaging system. The performance of this device as an imaging spectrometer was extraordinary, with a spatial resolution of 125 /spl mu/m at 30 keV and an energy resolution of 2 keV FWHM (25-140 keV). The device performed well over a temperature range of 136-200 K. It is concluded that semiconductor detector arrays with multiplexer readout are a very attractive approach for a new generation of nuclear medicine imaging systems.
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