Tue, 25 Oct 2016 12:56:39 +0300
Minor code alteration in depolarization.rst, to include images.
docs/depolarization/depolarization.rst | file | annotate | diff | comparison | revisions |
--- a/docs/depolarization/depolarization.rst Tue Oct 25 12:51:13 2016 +0300 +++ b/docs/depolarization/depolarization.rst Tue Oct 25 12:56:39 2016 +0300 @@ -332,7 +332,7 @@ To make these settings working with SCC v4.0 it is needed to modify :underline:ONLY` the products properties involving the polarization channels (532 cross and parallel). All the products not involving the polarization channels :underline:`DO NOT` need any modification and should work in the SCC v4.0 exactly as they did in SCC v3.11. In the example above the aerosol extinction and backscatter coefficient at 355nm, the extinction at 532nm as well as the backscatter coefficient at 1064nm do not required any modification. Let's focus on the modifications needed for the calculation of backscatter at 532nm. -.. figure:: figure3.1.png +.. figure:: ../media/figure3.1.png :height: 369 :width: 1037 :scale: 100 % @@ -363,7 +363,7 @@ The other change about the polarization channels required to run the SCC v4.0 is the definition of the polarization crosstalk parameters for all the polarization channels available. Such parameters can be defined for each polarization channel using the SCC web interface (see figure 3.2). In particular among the channel parameters there is a new tab called *Polarization crosstalk parameters* where it is possible to insert the values from for the parameters *G* and *H* and the corresponding statistical and systematic errors if available. In case you have measured *G* and *H* for your polarization channels please insert the corresponding values there. Otherwise you can insert the ideal values as reported in table 1.1. -.. figure:: figure3.2.png +.. figure:: ../media/figure3.2.png :height: 479 :width: 1890 :scale: 100 % @@ -398,7 +398,7 @@ Other “*Linear polarization calibration”* options to be specified are reported in figure 3.3. The most important factor you should insert here is the *Pol calibration correction factor* (K). The ideal value for this parameter is 1. Anyway if you have measured the parameter K please fill in the measured value and the corresponding measurement errors. -.. figure:: figure3.3.png +.. figure:: ../media/figure3.3.png :height: 495 :width: 1887 :scale: 100 % @@ -683,7 +683,7 @@ It is important to set among the product options of the product ID=10 and 11 which calibration product we want to use for calibration (see section 3.2). This can be done using the SCC web interface setting the appropriate setting in the tab *Polarization calibration products* (see figure 3.4). According to the current example you should set here the calibration product defined in section 3.2. -.. figure:: figure3.4.png +.. figure:: ../media/figure3.4.png :height: 102 :width: 1895 :scale: 100 %