This page (revision-13) was last changed on 07-Dec-2016 14:14 by Peter Young

This page was created on 06-Jul-2007 13:51 by Harry Warren

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Version Date Modified Size Author Changes ... Change note
13 07-Dec-2016 14:14 6 KB Peter Young to previous
12 07-Apr-2011 16:27 6 KB PeterYoung to previous | to last
11 08-Jul-2010 21:01 5 KB PeterYoung to previous | to last
10 06-Nov-2008 16:34 4 KB PeterYoung to previous | to last
9 09-Jul-2007 12:53 3 KB Louise Harra to previous | to last
8 09-Jul-2007 12:12 3 KB Louise Harra to previous | to last Comment by Louise Harra
7 07-Jul-2007 12:51 3 KB David Pérez-Suárez to previous | to last
6 07-Jul-2007 12:49 3 KB David Pérez-Suárez to previous | to last
5 06-Jul-2007 14:04 2 KB Harry Warren to previous | to last
4 06-Jul-2007 14:03 2 KB Harry Warren to previous | to last
3 06-Jul-2007 14:02 1 KB Harry Warren to previous | to last
2 06-Jul-2007 13:55 1 KB Harry Warren to previous | to last
1 06-Jul-2007 13:51 1 KB Harry Warren to last

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At line 1 added 2 lines
[{ALLOW edit EISMainUsers}]
[{ALLOW view Anonymous}]
At line 102 changed one line
!! EIS_BIN_WINDATA - performing spatial binning
!!Operations on WINDATA structures
At line 106 added 4 lines
There are a number of routines available for performing operations on WINDATA structures. The full set are listed in [EIS Software Note #21|ftp://sohoftp.nascom.nasa.gov/solarsoft/hinode/eis/doc/eis_notes/21_WINDATA/eis_swnote_21.pdf].
!Spatial binning (EIS_BIN_WINDATA)
At line 113 changed one line
-- [Peter Young|http://solar.bnsc.rl.ac.uk/~young/]
!Joining two WINDATA structures (EIS_JOIN_WINDATA)
Takes two WINDATA structures from a data-set and joins them in the wavelength dimension to produce a single, new WINDATA structure. This is most useful if the two WINDATAs are directly adjacent on the detector.
{{{
IDL> wd1=eis_getwindata(l1name,184.54)
IDL> wd2=eis_getwindata(l1name,185.12)
IDL> wd=eis_join_windata(wd1,wd2)
}}}
!Correcting data arrays for orbit variation and slit tilt (EIS_SHIFT_SPEC)
The wavelength scale for individual spatial pixels changes across the raster due to the thermally-induced, orbital drift of line centroids and the EIS slit tilt. The routine EIS_SHIFT_SPEC takes an array of wavelength corrections, and interpolates the intensity and error arrays such that the same wavelength scale applies to each spatial pixel. Due to complications of interpolating over missing pixels, the /refill option should be used in the call to eis_getwindata.
{{{
IDL> eis_wave_corr_hk, l1name, wvl_corr
IDL> wd=eis_getwindata(l1name, 195.12, /refill)
IDL> wd_new=eis_shift_spec(wd,wvl_corr)
}}}
!Trimming the wavelength range of a windata structure (EIS_TRIM_WINDATA)
This routine is intended for WINDATA structures with a large wavelength coverage; most commonly this will be full CCD data. An example use is when EIS_AUTO_FIT is to be run on just a single emission line within a full CCD spectrum. By trimming the wavelength coverage of WINDATA to just including the wavelength region around the line of interest, the spectrum becomes easier to fit. The usage is as follows for the case where Fe XII 195.12 is to be studied:
{{{
IDL> wd=eis_getwindata(l1name, 195.12, /refill)
IDL> wd195=eis_trim_windata(wd,[194.12,196.12])
}}}
Here a +/- 1 angstrom band around the line of interest is extracted.