Self-tuning digital Mössbauer detection system

A. VEIGA; C. M. GRUNFELD; G. A. PASQUEVICH; P. MENDOZA ZÉLIS; N. MARTÍNEZ; F. H. SÁNCHEZ

HYPERFINE INTERACTIONS

Springer Netherlands

Año: 2014 vol. 224 p. 73 - 81

0304-3843

Long term gamma spectroscopy experiments involving single-channel analyzer equipment depend upon thermal stability of the detector and its associated high-voltage supply. Assuming constant discrimination levels, a drift in the detector gain impacts the output rate, producing an effect on the output spectrum. In some cases (e.g. single-energy resonant absorption experiments) data of interest can be completely lost. We present a digital self-adapting discrimination strategy that tracks emission line shifts using statistical measurements on a predefined region-of-interest of the spectrum. It is developed in the form of a synthesizable module that can be intercalated in the digital processing chain. It requires a moderate to small amount of digital resources and can be easily activated and deactivated.