Versatile XLM72S logic module for real-time event filtering in multi-detector systems: Implementation in Compton-suppressed gamma-ray spectroscopy

Detecting emitted radiation from nuclear processes such as reactions and radioactive decay allows for probes of the not-so-well understood nuclear interaction, a residual of the strong interaction which acts on quarks and gluons rather than protons and neutrons. Employing multi-detector systems as opposed to single-detector systems increases the breadth of studies which can be performed both by increasing the overall efficiency and by using time-correlated measurement techniques. With multi-detector systems, however, comes an increase in complexity, size, power consumption, and cost for data acquisition systems which can process and perform logical operations on raw signals. To combat this in the Nuclear Science Laboratory at Simon Fraser University, real-time event filtering has been implemented using a user programmable logic module called XLM72S. The logic module provides 72 emitter-coupled logic ports, configurable quartet-wise as inputs or outputs, an on-board 80 MHz clock, four digital clock managers capable of synthesizing additional clock frequencies, and two serial peripheral interface memories. In the current setup, the XLM72S allows for simultaneous and computer controlled logic to be performed on up to 20 Compton Suppressed Spectrometers used for the detection of gamma rays from nuclear decays, as well as up to 4 auxiliary signals used for filtering events which have coincident particle emission. The XLM72S module has been implemented and tested for a system containing five Compton Suppressed Spectrometers and a charged particle detector, demonstrating it's effectiveness at performing logic in real time for anti-coincident Compton Suppression and coincidence multi-fold events.