EPIC PN background spectra for low surface brightness sources Michael Bauer (MPE), Wolfgang Pietsch (MPE) & Ginevra Trinchieri (INAF)

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Presentation transcript:

EPIC PN background spectra for low surface brightness sources Michael Bauer (MPE), Wolfgang Pietsch (MPE) & Ginevra Trinchieri (INAF)

The halo emission in NGC 253 Low surface brightness –background may dominate Background components: –sky background –detector background –Out-of-Time events (PN)

The halo emission in NGC 253 remove point sources choose background region at the border of the field of view, but: –different vignetting –different detector background Field of View Bkg

Detector background use Filter Wheel Closed observations –with same detector mode and filter as in NGC 253 observation –observation date close to the NGC 253 observation to avoid different detector settings or different detector performance –correct for different particle radiation levels, by rescaling the count rate in the closed observation via the Rejected Line Counter from the House Keeping File (large detector area, no Out-of-Time event influence)

Out-of-Time events use Out-of-Time event files to extract spectra by subtracting the Out-of-Time spectrum and the detector background spectrum from the source spectrum, the Out-of-Time events from the detector background are subtracted twice! -> Add Out-of-Time spectrum from the detector background again

Vignetting correction the sky background is vignetted, the detector background is NOT => first, subtract non-vignetted components from the spectrum in the background region determine the off-axis angle of the centre of source and background region correct counts in each channel in the background spectrum to have the same vignetting as the source region

Total background spectrum source region: S, background region: B exposure time: t, area: A, vignetting: V, Rejected Line Counter: R, Out-of-Time event fraction: f

Example spectrum in the halo Combined:

Example spectrum in the halo Differences: conventional method requires additional power law component flux is higher in the conventional method, up to 22% (for low surface brightness) temperatures are consistent between both methods

NGC 253 observationFilter Wheel Closed observation SRC BKG SRC BKG SRC BKG SRC BKG event file Out-of-Time event file event file Out-of-Time event file FOV