J/A+AS/105/77 Atomic data for O VIII and Fe XVII (Cornille+ 1994)
Atomic data and spectral line intensities for O VIII and Fe XVII
resonance lines as well as their O VII and Fe XVI satellite lines
Cornille M., Dubau J., Faucher P., Bely-Dubau F., Blancard C.
<Astron. Astrophys. Suppl. Ser. 105, 77 (1994)>
=1994A&AS..105...77C 1994A&AS..105...77C
ADC_Keywords: Atomic physics
Keywords: atomic data - lines: identification - Sun: corona -
Sun: X-rays - X-rays: general
Abstract:
The atomic data required to analyse low density coronal plasmas have
been calculated and used to interpret X-ray spectra observed by the
Flat Crystal Spectrometer of the SMM/NASA satellite in the 14-19 A
wavelength range. The emission lines correspond mainly to Fe XVI, Fe
XVII, Fe XVIII and some ones to O VII, O VIII.
File Summary:
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FileName Lrecl Records Explanations
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ReadMe 80 . This file
table1.dat 73 89 Fe XVII energy levels and radiative transition
probabilities
table2.dat 48 14 Fe XVII wavelengths and radiative transition
probabilities
table3.dat 32 37 Fe XVII energy levels
table4.dat 58 36 Fe XVII fine structure collision strengths
table5.dat 77 20 Fe XVI dielectronic satellite atomic data
table6.dat 34 43 Fe XVI fine structure collision strengths
table7.dat 72 25 O VIII energy levels and radiative transition
probabilities
table8.dat 49 24 O VIII fine structure collision strengths
table9.dat 77 34 O VII dielectronic satellite atomic data
table10a.dat 158 12 Fe XVII line energy differential emissivity and
relative differential emissivity
table10b.dat 97 14 O VIII line energy differential emissivity and
relative differential emissivity
table10c.dat 65 17 Most important Fe XVI inner-shell line energy
differential emissivities and relative
differential emissivity
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Byte-by-byte Description of file: table1.dat table3.dat table7.dat
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Bytes Format Units Label Explanations
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3- 4 I2 --- Id identification number corresponding to the
following level
6- 24 A19 --- Level level
26- 32 I7 cm-1 E energy level
35- 36 I2 --- Id.f1 ? final level of Ar1
38- 45 E8.3 s-1 Ar1 ? radiative transition probability
(first of the two more important)
49- 50 I2 --- Id.f2 ? Final level of Ar2
55- 62 E8.3 s-1 Ar2 ? radiative transition probability
(second of the two more important)
65- 72 E8.3 s-1 SAr ? Sum of all radiative probabilities from
the level identified in the first two columns
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Byte-by-byte Description of file: table2.dat
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Bytes Format Units Label Explanations
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4- 5 I2 --- Id1 Upper level of transition (Id of table1)
7 A1 --- --- [-]
8- 9 I2 --- Id0 Lower level of transition (Id of table1)
12- 17 F6.3 0.1nm LambdaObs observed wavelength from
Phillips et al. (1982)
19- 24 F6.3 0.1nm Lambda1 observed wavelength from this work
27- 31 F5.2 0.1nm Lambda2 observed wavelength from
Loulergue & Nussbaumer (1975)
33- 40 E8.3 s-1 Ar1 radiative transition probability form
this work
42- 49 E8.3 s-1 Ar2 radiative transition probability form
Loulergue & Nussbaumer (1975)
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Byte-by-byte Description of file: table4.dat
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Bytes Format Units Label Explanations
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3- 4 I2 --- Id level identification number (from table1)
6- 12 E7.2 --- Omega70 fine structure collision strength for an
electron impact energy of 70 Ry
15- 21 E7.2 --- Omega85 fine structure collision strength for an
electron impact energy of 85 Ry
24- 30 E7.2 --- Omega200 fine structure collision strength for an
electron impact energy of 200 Ry
33- 39 E7.2 --- Omega400 fine structure collision strength for an
electron impact energy of 400 Ry
42- 48 E7.2 --- Omega600 fine structure collision strength for an
electron impact energy of 600 Ry
51- 57 E7.2 --- Omega800 fine structure collision strength for an
electron impact energy of 800 Ry
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Byte-by-byte Description of file: table5.dat table9.dat
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Bytes Format Units Label Explanations
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2- 22 A21 --- Ts autoionizing level s of the transition (s -> f)
25- 41 A17 --- Tf final level f of the transition (s -> f)
43- 49 F7.4 Ry Es energy of the corresponding captured electron
55- 61 F7.4 0.1nm lambda wavelength
63- 70 E8.3 s-1 F*2(sf) Fe XVI dielectronic satellite atomic data
73- 77 F5.3 --- n_F*2(sf) relative importance of each F*2(sf) to this one
of the strongest dielectronic line choosen
as a reference line
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Byte-by-byte Description of file: table6.dat
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Bytes Format Units Label Explanations
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3- 22 A20 --- Level excited level
25- 32 E8.3 --- Omega60 fine structure collision strength for an
electron impact energy of 60 Ry
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Byte-by-byte Description of file: table8.dat
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Bytes Format Units Label Explanations
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3- 14 A12 --- Level excited level
19- 20 I2 --- Id level identification number (see table7)
22- 29 E8.3 --- Omaga62 fine structure collision strength for an
electron impact energy of 62 Ry
33- 40 E8.3 --- Omaga93 fine structure collision strength for an
electron impact energy of 93 Ry
42- 49 E8.3 --- Omaga124 fine structure collision strength for an
electron impact energy of 124 Ry
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Byte-by-byte Description of file: table10a.dat
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Bytes Format Units Label Explanations
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3- 35 A33 --- Trans Transition
37- 42 A6 --- Ident Identification
48- 54 F7.4 0.1nm lambda wavelength
56- 62 E7.2 ph/s/cm3 Epsilon70 line energy differential emissivity for an
electron impact energy of 70 Ry
65- 71 E7.2 ph/s/cm3 Epsilon85 line energy differential emissivity for an
electron impact energy of 85 Ry
74- 80 E7.2 ph/s/cm3 Epsilon200 line energy differential emissivity for an
electron impact energy of 200 Ry
83- 89 E7.2 ph/s/cm3 Epsilon400 line energy differential emissivity for an
electron impact energy of 400 Ry
92- 98 E7.2 ph/s/cm3 Epsilon600 line energy differential emissivity for an
electron impact energy of 600 Ry
101-107 E7.2 ph/s/cm3 Epsilon800 line energy differential emissivity for an
electron impact energy of 800 Ry
109-115 E7.2 --- DE70/E ? relative energy differential emissivity
for an electron impact energy of 70 Ry
118-124 E7.2 --- DE85/E ? relative energy differential emissivity
for an electron impact energy of 85 Ry
126-132 E7.2 --- DE200/E ? relative energy differential emissivity
for an electron impact energy of 200 Ry
135-141 E7.2 --- DE400/E ? relative energy differential emissivity
for an electron impact energy of 400 Ry
144-150 E7.2 --- DE600/E ? relative energy differential emissivity
for an electron impact energy of 600 Ry
153-159 E7.2 --- DE800/E ? relative energy differential emissivity
for an electron impact energy of 800 Ry
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Byte-by-byte Description of file: table10b.dat
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Bytes Format Units Label Explanations
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3- 29 A27 --- Trans Transition
39- 45 F7.4 0.1nm Lambda wavelength
47- 53 E7.2 ph/s/cm3 Epsilon62 ? line energy differential emissivity for
an electron impact energy of 62 Ry
58- 64 E7.2 ph/s/cm3 Epsilon93 ? line energy differential emissivity for
an electron impact energy of 93 Ry
66- 72 E7.2 ph/s/cm3 Epsilon124 ? line energy differential emissivity for
an electron impact energy of 124 Ry
74- 78 F5.3 --- DE62/E ? relative energy differential emissivity
for an electron impact energy of 62 Ry
85- 89 F5.3 --- DE93/E ? relative energy differential emissivity
for an electron impact energy of 93 Ry
93- 97 F5.3 --- DE124/E ? relative energy differential emissivity
for an electron impact energy of 124 Ry
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Byte-by-byte Description of file: table10c.dat
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Bytes Format Units Label Explanations
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1- 40 A40 --- Trans transition
42- 47 F6.3 0.1nm Lambda wavelength
52- 58 E7.2 ph/s/cm3 Epsilon60 most important inner-shell line energy
differential emissivity for an electron
impact energy of 60 Ry
61- 65 F5.3 --- DE60/E most important relative energy differential
emissivity for an electron impact energy
of 60 Ry
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(End) [CDS] 19-May-1994