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| Last updated on 7th Jan 2005 |
This is the link to Jonathan Cirtain WWW pages:
http://hea-www.harvard.edu/SSXG/jcirtain/
The TRACE images have been processed using trace_prep by Jonathan Cirtain.
The data are corrected for both solar rotation and are in DN/sec/pix . The values are floats.
All of the TRACE images are aligned with one another.
TRACE observed in sequence with the three coronal filters. The 284 Å filter is very noisy.
These are the timings (UT): 195 A: 14:01:23.000 14:02:37.000 14:03:50.000 14:05:04.000 14:06:18.000 14:07:31.000 14:08:45.000 14:09:58.000 284 A: 14:10:11.000 14:10:29.000 14:11:11.000 14:11:57.000 14:12:40.000 14:13:23.000 14:14:06.000 14:14:49.000 14:15:32.000 14:16:15.000 171 A: 14:16:50.000 14:17:54.000 14:18:57.000 14:20:00.000 14:21:03.000 14:22:07.000 14:57:49.000 14:58:52.000 14:59:54.000
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The CDS data have been cleaned (one by one) for cosmic rays, rotated and calibrated.
The first and last row of pixles have been cut out.
the CDS images have been translated to match the TRACE images by:
trans=[-25, +15]
*No* correction for a NIS 1 - NIS 2 misalignement has been applied.
s26707r00 ARDIAG_2 17/Jan/03 14:24:45
The map structure files with line intensities and positions are :
s26707r00_fit_cds_maps.save
s26707r00_fit_cds_maps_pos.save
there are data for the lines (most have low counts - some are at the edge
of the NIS window):
0 332.789 Al X 332.8 Å log T = 6.1
1 334.172 Fe XIV 334.2 Å log T = 6.2
2 335.300 Fe XVI bl Mg VIII Fe XII 335.3 Å log T = 6.3
3 346.852 Fe XII 346.9 Å log T = 6.2
4 347.402 Si X 347.4 Å log T = 6.1
5 348.183 Fe XIII 348.2 Å log T = 6.2
6 349.170 Mg VI 349.2 Å log T = 5.7
7 349.873 Si IX 349.9 Å log T = 6.1
8 350.700 Na VII 350.7 Å log T = 5.8
9 352.106 Fe XII 352.1 Å log T = 6.1
10 352.662 Fe XI 352.7 Å log T = 6.1
11 353.831 Fe XIV 353.8 Å log T = 6.2
12 356.012 Si X 356.0 Å log T = 6.1
13 356.519 Fe XI 356.5 Å log T = 6.1
14 357.774 Ne IV 357.8 Å log T = 5.3
15 358.700 Ne IV 358.7 Å log T = 5.3
16 359.382 Ne V 359.4 Å log T = 5.5
17 359.800 Fe XIII 359.8 Å log T = 6.2
18 360.761 Fe XVI 360.8 Å log T = 6.3
19 361.400 Si XI + Fe X 361.4 Å log T = 6.3
20 363.772 Mg VII 363.8 Å log T =5.8
21 364.189 Fe X 364.2 Å log T = 6.0
22 364.467 Fe XII 364.5 Å log T = 6.1
23 367.200 Fe XVII 367.2 Å log T = 6.6
24 367.670 Mg VII 367.7 Å log T = 5.8
25 368.070 Mg IX 368.1 Å log T = 6.0
26 369.153 Fe XI 369.2 Å log T = 6.1
27 519.722 Ar VIII 519.7 Å log T =5.5
28 520.665 Si XII 520.7 Å log T = 6.3
29 522.210 He I 522.2 Å log T = 4.5
30 541.128 Ne IV 541.1 Å log T = 5.3
31 542.072 Ne IV 542.1 Å log T = 5.3
32 543.891 Ne IV 543.9 Å log T = 5.3
33 548.618 Mg VII 548.6 Å log T = 5.8
34 550.031 Al XI 550.0 Å log T =6.2
35 553.329 O IV 553.3 Å log T =5.3
36 554.076 O IV 554.1 Å log T =5.3
37 554.513 O IV 554.5 Å log T =5.3
38 555.263 O IV 555.3 Å log T =5.3
39 557.765 Ca X 557.8 Å log T =5.8
40 558.594 Ne VI 558.6 Å log T =5.6
41 561.728 Ne VII 561.7 Å log T =5.7
42 562.803 Ne VI 562.8 Å log T =5.6
43 563.957 Si XI 564.0 Å log T =6.2
44 580.400 O II 580.4 Å log T = 4.9
45 580.908 Si XI 580.9 Å log T =6.2
46 592.200 Fe XIX 592.2 592.2 Å log T = 7.0
47 592.900 ? 592.9 Å log T = 0
48 624.200 Fe XIII IIo 624.2 Å log T = 6.2
49 624.941 Mg X 624.9 Å log T = 6.0
50 625.853 O IV 625.9 Å log T = 5.3
51 629.732 O V 629.7 Å log T = 5.4
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s26704r00 - 08 ARDIAG_4 17/Jan/03 10:43:57 - 11:39:41
The map structure files with line intensities and positions are :
s26708r00_fit_cds_maps.save
s26708r00_fit_cds_maps_pos.save
and so on ...
there are results for the lines :
0 318.600 Fe X 318.6 Å log T = 6.0
1 319.027 Mg VII 319.0 Å log T = 5.8
2 319.825 Si VIII 319.8 Å log T = 5.9
3 320.500 Ni XVIII 320.5 Å log T = 6.4
4 320.809 Fe XIII 320.8 Å log T = 6.2
5 344.000 Al VII 344.0 Å log T = 0.
6 345.100 Si IX 345.1 Å log T = 6.1
7 345.722 Fe X 345.7 Å log T = 6.0
8 346.852 Fe XII 346.9 Å log T = 6.2
9 347.402 Si X 347.4 Å log T = 6.1
10 348.183 Fe XIII 348.2 Å log T = 6.2
11 349.170 Mg VI 349.2 Å log T = 5.7
12 349.873 Si IX 349.9 Å log T = 6.1
13 350.700 Na VII 350.7 Å log T = 5.8
14 356.012 Si X 356.0 Å log T = 6.1
15 356.519 Fe XI 356.5 Å log T = 6.1
16 359.382 Ne V 359.4 Å log T = 5.5
17 359.800 Fe XIII 359.8 Å log T = 6.2
18 360.761 Fe XVI 360.8 Å log T = 6.3
19 361.400 Si XI + Fe X 361.4 Å log T = 6.3
20 363.772 Mg VII 363.8 Å log T =5.8
21 364.189 Fe X 364.2 Å log T = 6.0
22 364.467 Fe XII 364.5 Å log T = 6.1
23 365.200 Mg VII 365.2 Å log T = 5.8
24 365.543 Fe X 365.5 Å log T = 6.0
25 366.000 X 366.0 Å log T = 0.0
26 367.200 Fe XVII 367.2 Å log T = 6.6
27 367.670 Mg VII 367.7 Å log T = 5.8
28 368.070 Mg IX 368.1 Å log T = 6.0
29 369.153 Fe XI 369.2 Å log T = 6.1
30 519.722 Ar VIII 519.7 Å log T =5.5
31 520.665 Si XII 520.7 Å log T = 6.3
32 522.210 He I 522.2 Å log T = 4.5
33 561.728 Ne VII 561.7 Å log T =5.7
34 562.803 Ne VI 562.8 Å log T =5.6
35 563.957 Si XI 564.0 Å log T =6.2
36 592.200 Fe XIX 592.2 592.2 Å log T = 7.0
37 592.900 ? 592.9 Å log T = 0
38 599.597 O III 599.6 Å log T =5.1
39 600.600 X 600.6 Å log T = 0.
40 624.200 Fe XIII IIo 624.2 Å log T = 6.2
41 624.941 Mg X 624.9 Å log T = 6.0
42 625.853 O IV 625.9 Å log T = 5.3
43 629.732 O V 629.7 Å log T = 5.4
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Acknowledgements
Support from PPARC is acknowledged.
