10.1371/journal.pone.0069335.g005 Aymeric Leray Aymeric Leray Sergi Padilla-Parra Sergi Padilla-Parra Julien Roul Julien Roul Laurent Héliot Laurent Héliot Marc Tramier Marc Tramier Performance of the non-fitting methods (polar approach in black, moments method in blue and <i>mf<sub>D</sub></i> in red) as a function of the number of temporal channels for <i>N</i> = 1000 photons (time gated simulations). Public Library of Science 2013 Biochemistry proteins Protein interactions biotechnology Bioengineering Biomedical Engineering Molecular cell biology signal processing Image processing biophysics Condensed-matter physics optics non-fitting methods moments temporal channels photons gated 2013-07-18 03:45:15 Figure https://plos.figshare.com/articles/figure/_Performance_of_the_non_fitting_methods_polar_approach_in_black_moments_method_in_blue_and_mf_D_in_red_as_a_function_of_the_number_of_temporal_channels_for_N_1000_photons_time_gated_simulations_/748292 <p>We have considered three fractions of interacting donor <i>f<sub>D</sub></i>: 0.25 (A), 0.5 (B) and 0.75 (C). <i>τ<sub>F</sub></i> and <<i>τ></i> are reported in the right part whereas <i>f<sub>D</sub><sup>P</sup>, f<sub>D</sub><sup>M</sup></i> and <i>mf<sub>D</sub></i> are indicated in the left. For each condition, the dotted lines represent the simulated values and the markers with error bars represent the corresponding medians and interquartile ranges of 4096 simulated histograms with parameters: <i>τ<sub>F</sub></i> = 1.5 ns and <i>τ<sub>D</sub></i> = 2.5 ns.</p>