Title :
Don´t subtract the background [signal count analysis method]
Author :
Thompson, William J.
Author_Institution :
Dept. of Phys., North Carolina Univ., Chapel Hill, NC, USA
Abstract :
When phenomena occur at the threshold of detection capabilities, event rates are low and observers usually record data as discrete counts. In this article, I outline a statistically reliable and efficient method for analyzing signal counts superimposed on background counts that are not subtracted before the data are analyzed. The Poisson statistics of the data are used with a maximum likelihood estimation (MLE) of the parameters. Although I devised the method to improve estimates of yields in low-energy nuclear reactions, it is generally applicable because it is independent of background or signal-shape details. In addition to estimating total signal counts, the analysis produces reliable confidence levels for the estimated signal
Keywords :
Poisson distribution; data recording; high energy physics instrumentation computing; maximum likelihood estimation; nuclear reactions and scattering; particle counting; signal detection; Poisson statistics; background counts; confidence levels; detectability threshold; event rate; low-energy nuclear reaction yields; maximum likelihood estimation; signal count analysis method; statistically reliable method; Belts; Event detection; Fluctuations; Gaussian distribution; Maximum likelihood estimation; Probability distribution; Random variables; Statistical distributions;
Journal_Title :
Computing in Science & Engineering
DOI :
10.1109/5992.790592
