## Channel list All PSSS data channels are listed in the following sheet: [Sheet of PSSS data channels](https://docs.google.com/spreadsheets/d/16Hz7MZR3E7-OmLHfakkT2K6yPMFUzp4eIFZxrzXWjFk/edit?usp=sharing) ## Nomenclature | Style | Meaning| |----------|----------| | SARFE10-PSSS059:**SPECTRUM***|Raw spectral data | | SARFE10-PSSS059:**FIT*** | Results of Gaussian fit | | SARFE10-PSSS059:**SPECT*** | Statistics from the raw (without fit) spectrum | | SARFE10-PSSS059:**AVG*** | Data calculated from average (not single shot) spectra | ## Concepts **Width and center** Spectral width and central energy are calculated by both a Gaussian fit and directly from the spectra. Depending on the spectral intensity profile, the Gaussian may return a poor representation of the spectra, for example for a spectral with a long tail. Before both fitting and calculation the spiky single shot spectra are smoothed with a savgol filter: ``` # smooth the spectrum with savgol filter with 51 window size and 3rd order polynomial smoothed_spectrum = scipy.signal.savgol_filter(spectrum, 51, 3) ``` The standard deviation and center of mass for the spectra are calculated as: ``` smoothed_spectrum_normed = smoothed_spectrum / np.sum(smoothed_spectrum) spectrum_com = np.sum(axis * smoothed_spectrum_normed) spectrum_std = np.sqrt(np.sum((axis - spectrum_com) ** 2 * smoothed_spectrum_normed)) ``` **Relative energy spread** Channels ending in **RES** are a measure of the relative energy spread in units of ‰. For **FIT** data the relative energy spread is calculated as: $`\frac{2.355*\sigma}{\mu}`$ and for directly calculated values (**SPECT**): $`\frac{2.355*RMS}{\text{Center of mass}}`$ where the factor or 2.355 is included to allow these values to be comparable. ## Data flow schematic