Order-zero image (FeXII 195A)#
Use TRACE data: tri20080107.0600 (reversed color table)
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/tracemap_ori.png |
Order-plus image (FeXII 195A)#
Use EIS data: eis_l0_20080107_062226.fits.gz (reversed color table)
40" slot, 15 scans, time duration: roughly 6 minutes
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/eismap_ori.png |
EIS and TRACE Image alignment#
- Define common Field of View (FOV) for both TRACE and EIS image (FeXII line) - illustrated by dash box.
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/tracemap_ori_FOV.png |
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/eismap_ori_FOV.png |
- After alignment, the order-zero and order-plus images are as follows:
Order-0 (reversed color table)
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/zero.png |
Order-1 (reversed color table)
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/plus.png |
Deconvolution results#
- Recontructed velocity map (full FOV)
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/recon_int_vel.png |
EIS did 1" scanning 6 hours before the 40" slot obervation, which covering the small FOV of the 40" slot-scan image - illustrated by dash box.
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/zero_FOV.png |
The deconvolution is also applied to this small FOV of the image.
- Recontructed Velocity map (small FOV)
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/recon_int_vel_FOV.png |
- Compared with the velocity map (FeXII 195A line) obtained from the EIS data (small FOV):
Use EIS data: eis_l0_20080107_002701.fits.gz
1" scan, 256 position, time duration: roughly 80 minutes
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/compare_eis_hist_FOV.png |
Conlusions and Discussions#
- The deconvolution results are fairly ok to show loops, outflows/downflows (ie. blue/red shifts) for large-scale features, for example, see positions A to H (except F).
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/recon_int_vel_gimp.png |
- For small-scale features, the reconstruction is not ok enough to show fine structures, for example, see position F on both images.
| Content unavailable! (broken link)https://vsolar.mssl.ucl.ac.uk/JSPWiki/images/eis40/recon_int_vel_FOV_gimp.png |
- Due to having only two projections (order_0 & 1 images), the deconvolution is not good enough to reveal small or changed-rapidly structures. But considering 1" scanning usually takes long time to finish (in this case, 80 minutes for a small FOV), it is also not good enough to observe fast-changing features. So it looks the slot deconvolution will be useful for, at leat, synoptic review(?)
- A few issues during the deconvolution using this datasets are caused by that the order-0 & 1 images come from different instruments: TRACE & EIS. The following factors are imported:
- CCD pixel size and resolution are different
- Instrument response is different, eg, PSF
- Spectral resolution is different, eg, TRACE covers wider for FeXII 195 line compared with EIS 195 line (according to drw)
- images from TRACE & EIS may have different distortions and alias, which makes alignment difficult
The above factors effect the image quality and thus alignment and reconstruction. However, the above factors can be reduced significantly if both order-0 & 1 images come from same instrument.
- The large FOV image is needed as it helps alignment. But the data of EIS 40" slot needs to process to get full FOV image, which effects image quality. So if possible, using wider slot (eg. 266" slot) is better