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Дата изменения: Wed Oct 22 17:34:32 2008
Дата индексирования: Tue Aug 18 15:07:50 2009
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Developer's notes XMM-Newton SAS Home Page
XMM-Newton Science Analysis System


omgchain (omgchain-1.8.1) [???]

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Developer's notes

Currently the omgchain checks for the presence of the complete set of sub-windows in the ODF (for the case of the Engineering-2 data). The sub-windows are combined if a single image only if all four sub-windows are present, otherwise each sub-window is processed separately.

The OM-grism photometric accuracy and spectral resolution is under investigation. In any case the spectral resolution cannot be better than 8 pixels ($\sim 50$ Å for the visual grism and $\sim 20$ Å  for the UV).

The correction for coincidence loss is not applied currently because omgchain deals with extended sources. The reliable coincidence-loss correction method for extended sources is not developed yet. However, for faint to moderately bright spectra the effect should be less than 10%. For spectra affected by the strongly visible modulo-8 patterns, where coincidence loss is important, the extracted spectra are unreliable.

Some zero- and first-order spectra may overlap (see, e.g. Fig.7). This situation is currently not treated, and the user should be aware of such a possibility. In such cases zero-order images may cause inappropriate scaling of the output plot (Fig.8).

Figure 3: Original grism image (no Mod-8 correction applied, no rotation); visual spectral band
\begin{figure}\centering\epsfysize =8cm \epsfig{file=U0125320801OMS005.ps, height=15cm}\end{figure}

Figure 4: Mod-8 noise corrected and rotated grism image; visual spectral band
\begin{figure}\centering\epsfysize =8cm \epsfig{file=R0125320801OMS005.ps, height=15cm}\end{figure}

Figure 5: Visual-grism image with the sources detected by omdetect (the source regions are marked with the green ellipses)
\begin{figure}\centering\epsfysize =8cm \epsfig{file=S0125320801OMS005.ps, height=15cm}\end{figure}

Figure 6: Spectrum extracted from the image Fig.5 by omgrism (corresponds to the lowest source in Fig.5)
\begin{figure}\centering\epsfysize =8cm \epsfig{file=sp005.ps, height=15cm}\end{figure}

Figure 7: UV-grism image (mod-8 noise corrected; image rotated). Note two zero-order spectra overlapping the first order spectrum (target).
\begin{figure}\centering\epsfysize =8cm \epsfig{file=R0125320801OMS014.ps, height=15cm}\end{figure}

Figure 8: Spectrum extracted from the image Fig.7 by omgrism. Note a zero-order spectrum oberlapping with the first-order target spectrum.
\begin{figure}\centering\epsfysize =8cm \epsfig{file=G0125320801OMS014SPECTR0000.PS, height=15cm}\end{figure}


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