Index A | B | C | D | E | F | G | H | L | M | N | P | Q | R | S | T | U | V | W A add_population() (ScattererCollection method) amplify() (TransimpedanceAmplifier method) amplitude_at() (AstigmaticGaussianBeam method) (GaussianBeam method) apply_dark_current_noise() (Detector method) apply_shot_noise() (Detector method) AstigmaticGaussianBeam (class in FlowCyPy.source) B bandwidth (Digitizer property) (TransimpedanceAmplifier attribute), [1] bit_depth (Digitizer attribute), [1] C cache_numerical_aperture (Detector attribute) calculate_field_amplitude_at_focus() (AstigmaticGaussianBeam method) (GaussianBeam method) capture_signal() (Digitizer method) characteristic_property (RosinRammler attribute) concentrations (ScattererCollection property) core_diameter (CoreShell attribute) core_refractive_index (CoreShell attribute) CoreShell (class in FlowCyPy.population) current_noise_density (TransimpedanceAmplifier attribute), [1] current_rms_noise (TransimpedanceAmplifier property) D Delta (class in FlowCyPy.distribution) Detector (class in FlowCyPy.detector) diameter (Sphere attribute) Digitizer (class in FlowCyPy.digitizer) dilute() (ScattererCollection method) dpdx (FlowCell attribute) E event_scheme (FlowCell attribute) F fill_dataframe_with_sampling() (ScattererCollection method) FlowCell (class in FlowCyPy.flow_cell) G gain (TransimpedanceAmplifier attribute), [1] GaussianBeam (class in FlowCyPy.source) generate() (Delta method) (LogNormal method) (Normal method) (RosinRammler method) (Uniform method) (Weibull method) generate_property_sampling() (CoreShell method) (Sphere method) get_particle_width() (AstigmaticGaussianBeam method) (GaussianBeam method) get_pdf() (Delta method) (LogNormal method) (Normal method) (RosinRammler method) (Uniform method) (Weibull method) get_population_dataframe() (ScattererCollection method) get_population_ratios() (ScattererCollection method) get_sample_volume() (FlowCell method) get_saturation_values() (Digitizer method) get_time_series() (Digitizer method) GlobalPeakLocator (class in FlowCyPy.peak_locator) H height (FlowCell attribute) height_sample (FlowCell attribute) L LogNormal (class in FlowCyPy.distribution) lower_bound (Uniform attribute) M mean (LogNormal attribute) (Normal attribute) mu (FlowCell attribute) N n_int (FlowCell attribute) N_terms (FlowCell attribute) Normal (class in FlowCyPy.distribution) numerical_aperture_z (AstigmaticGaussianBeam attribute) P particle_count (CoreShell attribute) (Sphere attribute) position (Delta attribute) Q Q_total (FlowCell attribute) R responsivity (Detector attribute) RIN (AstigmaticGaussianBeam attribute) (GaussianBeam attribute) RosinRammler (class in FlowCyPy.distribution) S sample_transverse_profile() (FlowCell method) sample_volume_flow (FlowCell attribute) sampling_rate (Digitizer attribute), [1] saturation_levels (Digitizer attribute), [1] scale (Weibull attribute) ScattererCollection (class in FlowCyPy.scatterer_collection) ScipyPeakLocator (class in FlowCyPy.peak_locator) set_concentrations() (ScattererCollection method) shape (Weibull attribute) sheath_volume_flow (FlowCell attribute) shell_refractive_index (CoreShell attribute) shell_thickness (CoreShell attribute) SlidingWindowPeakLocator (class in FlowCyPy.peak_locator) Sphere (class in FlowCyPy.population) spread (RosinRammler attribute) std_dev (LogNormal attribute) (Normal attribute) T total_output_noise (TransimpedanceAmplifier property) TransimpedanceAmplifier (class in FlowCyPy.amplifier) U u_center (FlowCell attribute) Uniform (class in FlowCyPy.distribution) upper_bound (Uniform attribute) V voltage_noise_density (TransimpedanceAmplifier attribute), [1] voltage_rms_noise (TransimpedanceAmplifier property) W waist (GaussianBeam attribute) waist_y (AstigmaticGaussianBeam attribute) waist_z (AstigmaticGaussianBeam attribute) Weibull (class in FlowCyPy.distribution) width (FlowCell attribute) width_sample (FlowCell attribute)
