This manual is very preliminary, please be patient or help adding what is missing.
SPICE online information:
The data levels, FITS files, and headers are described in
The full SPICE data set (to be cited in papers) has a DOI: doi:10.5270/esa-lbmdy7c. DOIs will also be attributed to each data release.
$SPICE_DATApoints to the data tree you want to have catalogued
SOAR (and institute mirrors):
In the future: VSO. VSO through SSW or sunpy. Sunpy/Fido
WARNING: Doppler maps created from SPICE lines show unusual patterns that we believe are due to the point spread function of the instrument. Work is underway on a deconvolution procedure that will correct for this effect. If you need advice on features you see in a Doppler map, please contact the SPICE PI at frederic.auchere -at- universite-paris-saclay.fr or another member of the SPICE team.
The SPICE detectors have microchannel plates (MCPs). Over time, the sensitivity of MCPs decreases at the locations of strong emission lines. This effect is referred to as “burn-in” and results in a flat-top or “self-reversal” to the line profile. This has already been noticed for the C III 977 line. The SPICE team plans to provide a correction to this effect once it is fully characterized.
The two key flare lines for EIS are Fe XVIII 974.86 and Fe XX 721.56 that are formed around 7 MK and 10 MK, respectively. The Fe XVIII line will probably be seen in active region cores (at least from bright active regions).
The Fe XVIII line is located between the stronger H I 972.54 (Lyman-gamma) and C III 977.02, but measurements should be possible.
The Fe XX line lies close to Fe VIII 721.26. One can estimate the strength of this line by comparing with Mg IX 706.06. The latter will be about a factor 10 stronger.
To determine if a flare is occurring at the time of a SPICE observation, check the STIX Data Browser at:
SPICE team internal access:
Once the data will be released:
Choose a location to store your SPICE data (e.g., '/my_data/spice') and then point the environment variable
$SPICE_DATA to it:
This line should be added to your IDL_STARTUP file.
Data are organized under
$SPICE_DATA with a year/month/day subdirectory structure. See the “Ingesting downloaded data” section below.
The SPICE catalog can be accessed by doing:
Use the “SPICE_GEN_CAT” button to make sure you have the most up-to-date list.
Perhaps the most useful data from the early commissioning phase (before July 2020) are the raster scans on 28-May-2020.
16:05, 16:50 - disk center rasters with 20s exposures
17:50, 18:35 - north limb rasters with 20s exposures
19:35, 20:20 - south limb rasters with 20s exposures
21:20, 22:05 - west limb rasters with 20s exposures
23:05, 23:47 - east limb rasters with 20s exposures
The first true science observations were obtained during 18 to 22 November 2020. For example, an active region can be seen in the raster beginning 19:57 UT on 18-Nov-2020.
After you have downloaded some SPICE FITS files, you can ingest them into your data directory with spice_ingest:
IDL> spice_ingest, files
This routine automatically creates the sub-directory structure (year/month/day) within $SPICE_DATA for the files.
Once a file has been ingested, then you can find it with spice_find_file using the observation time:
IDL> file=spice_find_file('28-may-2020 16:05')
A file can be read into an IDL object with:
The table below gives some methods for extracting information out of the data object. Where “i” is given, it means the index of a wavelength window should be specified (indices begin at 0).
You can get a list of all methods by doing:
|d→get_number_windows()||No. of spectral windows|
|d→get_window_data(i,/load)||Extract a data window|
|d→get_lambda_vector(i)||Get wavelength vector for the window|
|d→get_header(i)||Extract a data window header|
|d→get_window_id(i)||Get the data window ID|
|d→get_start_time()||Start time of observation|
|d→get_end_time()||End time of observation|
|d→get_sit_and_stare()||Set to 1 if sit-and-stare observation|
|d→get_number_exposures()||Number of exposures in raster|
|d→get_xcen(i)||Get the X-center for the window|
|d→get_ycen(i)||Get the Y-center for the window|
A set of five widget-based tools are available for browsing SPICE data, and these can be accessed through spice_xfiles:
This allows you to select a FITS file from your SPICE data directory. A new widget appears from which you can then select one of the five quicklook tools: Detector, Raster Browser, Raster, Whisker and Intensity map. These tools mimic software that were available for EIS and IRIS.
For further details, please visit the SPICE Quicklook and Data Analysis Software Page.
This is useful for browsing the 3D data cubes from SPICE rasters. In addition to being called from spice_xfiles (see above), it can also be called directly from the command line:
Use a 3-button mouse to browse the images and spectra: the middle button allows you to select a new pixel, the left button zooms in and the right button zooms out.
Calibration reports (links)
Data calibration applied to L2 data (links)
Known instrumental artefacts: see release notes.