J/PASP/124/519 Iron abundances of red giants in Carina gal. (Fabrizio+, 2012)
The Carina Project. V. The impact of NLTE effects on the iron content.
Fabrizio M., Merle T., Thevenin F., Nonino M., Bono G., Stetson P.B.,
Ferraro I., Iannicola G., Monelli M., Walker A.R., Buonanno R., Caputo F.,
Corsi E., Dall'Ora M., Degl'Innocenti S., Francois P., Gilmozzi R.,
Marconi M., Pitrinferni A., Prada Moroni P.G., Primas F., Pulone L.,
Ripepi V., Romaniello M.
<Publ. Astron. Soc. Pac., 124, 519-534 (2012)>
=2012PASP..124..519F 2012PASP..124..519F
ADC_Keywords: Stars, giant ; Abundances
Keywords: Stars
Abstract:
We have performed accurate iron abundance measurements for 44 red
giants (RGs) in the Carina dwarf spheroidal (dSph) galaxy. We used
archival, high-resolution spectra (R∼38000) collected with UVES
at ESO/VLT either in slit mode (five RGs) or in fiber mode (39 RGs,
FLAMES/GIRAFFE-UVES). The sample is more than a factor of 4 larger
than any previous spectroscopic investigation of stars in dSphs based
on high-resolution (R≥38000) spectra.
Description:
The high-resolution spectra for Carina RGs adopted in this
investigation were retrieved from the ESO Science Archive. We selected
spectra from four different ESO/VLT observing programs collected with
either UVES (slit mode, nine RGs) or FLAMES/GIRAFFE-UVES (multifiber
mode, 80 RGs).
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
table1.dat 123 48 Photometric and spectroscopic stellar parameters
table2.dat 686 94 Atomic data and individual iron abundances
--------------------------------------------------------------------------------
See also:
J/AJ/135/1580 : Element abundances in ten red giants of Car dSph (Koch+, 2008)
J/A+A/538/A100 : Abundances red giants in Carina dSph (Lemasle+, 2012)
Byte-by-byte Description of file: table1.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 A3 --- --- [Car]
4- 5 I2 --- Car [2/55] Sequential number,
<[FMT2012] Car NN> in Simbad
6 A1 --- n_Car Note on star (1)
8- 19 A12 --- OName1 Other name
20 A1 --- n_OName1 Note from OName1 (1)
21 A1 --- --- [,]
23- 29 A7 --- OName2 Other name
30 A1 --- n_OName2 Note from OName2 (1)
32- 33 I2 h RAh Right ascension (J2000)
35- 36 I2 min RAm Right ascension (J2000)
38- 42 F5.2 s RAs Right ascension (J2000)
44 A1 --- DE- Declination sign (J2000)
45- 46 I2 deg DEd Declination (J2000)
48- 49 I2 arcmin DEm Declination (J2000)
51- 54 F4.1 arcsec DEs Declination (J2000)
56- 60 F5.2 mag Vmag V magnitude
62- 65 F4.2 mag B-V B-V colour index
67- 72 F6.2 km/s RV ? Radial velocity
74- 77 F4.2 km/s e_RV ? rms uncertainty on RV
79- 82 I4 K Teff ? Effective temperature
84- 86 I3 K e_Teff ? rms uncertainty on Teff
88- 91 F4.2 [cm/s2] logg ? Gravity surface
93- 96 F4.2 [cm/s2] e_logg ? rms uncertainty on logg
98-102 F5.2 [Sun] [FeI/H] ? FeI abundance
104-107 F4.2 [Sun] e_[FeI/H] ? rms uncertainty on [FeI/H]
109-110 I2 --- o_[FeI/H] ? Number of FeI lines
112-116 F5.2 [Sun] [FeII/H] ? FeI abundance
118-121 F4.2 [Sun] e_[FeII/H] ? rms uncertainty on [FeI/H]
123 I1 --- o_[FeII/H] ? Number of FeII lines
--------------------------------------------------------------------------------
Note (1): Notes as follows:
a = Star identification according to Shetrone et al. (2003AJ....125..684S 2003AJ....125..684S)
b = Star identification according to Koch et al. (2008, Cat. J/AJ/135/1580)
LG04a-NNNNNN, <[KGG2008] LG04a-NNNNNN> in Simbad
c = Star identification according to Venn et al. (2012ApJ...751..102V 2012ApJ...751..102V)
Car-NNNN, [VSI2012] Car-NNNN in Simbad
d = Candidate carbon stars according to Koch et al. (2008, Cat. J/AJ/135/1580)
and Venn et al. (2012ApJ...751..102V 2012ApJ...751..102V).
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 8 F8.3 0.1nm lambda Wavelength (Å)
10- 13 F4.1 --- El Element (26.0=FeI, or 26.1=FeII)
15- 19 F5.3 eV EP Energy potential
21- 26 F6.3 [-] loggf Oscillator strength
28- 32 F5.2 0.1nm EW2 ?=- Car2 equivalent width (Å)
34- 37 F4.2 0.1nm e_EW2 ?=- rms uncertainty on EW2
39- 41 I3 --- o_EW2 ?=- Number of lines for EW2
43- 47 F5.2 0.1nm EW3 ?=- Car3 equivalent width (Å)
49- 52 F4.2 0.1nm e_EW3 ?=- rms uncertainty on EW3
54- 56 I3 --- o_EW3 ?=- Number of lines for EW3
58- 62 F5.2 0.1nm EW4 ?=- Car4 equivalent width (Å)
64- 67 F4.2 0.1nm e_EW4 ?=- rms uncertainty on EW4
69- 71 I3 --- o_EW4 ?=- Number of lines for EW4
73- 77 F5.2 0.1nm EW10 ?=- Car10 equivalent width (Å)
79- 82 F4.2 0.1nm e_EW10 ?=- rms uncertainty on EW10
84- 86 I3 --- o_EW10 ?=- Number of lines for EW10
88- 92 F5.2 0.1nm EW12 ?=- Car12 equivalent width (Å)
94- 97 F4.2 0.1nm e_EW12 ?=- rms uncertainty on EW12
99-101 I3 --- o_EW12 ?=- Number of lines for EW12
103-107 F5.2 0.1nm EW13 ?=- Car13 equivalent width (Å)
109-112 F4.2 0.1nm e_EW13 ?=- rms uncertainty on EW13
114-116 I3 --- o_EW13 ?=- Number of lines for EW13
118-122 F5.2 0.1nm EW14 ?=- Car14 equivalent width (Å)
124-127 F4.2 0.1nm e_EW14 ?=- rms uncertainty on EW14
129-131 I3 --- o_EW14 ?=- Number of lines for EW14
133-137 F5.2 0.1nm EW15 ?=- Car15 equivalent width (Å)
139-142 F4.2 0.1nm e_EW15 ?=- rms uncertainty on EW15
144-146 I3 --- o_EW15 ?=- Number of lines for EW15
148-152 F5.2 0.1nm EW16 ?=- Car16 equivalent width (Å)
154-157 F4.2 0.1nm e_EW16 ?=- rms uncertainty on EW16
159-161 I3 --- o_EW16 ?=- Number of lines for EW16
163-167 F5.2 0.1nm EW18 ?=- Car18 equivalent width (Å)
169-172 F4.2 0.1nm e_EW18 ?=- rms uncertainty on EW18
174-176 I3 --- o_EW18 ?=- Number of lines for EW18
178-182 F5.2 0.1nm EW19 ?=- Car19 equivalent width (Å)
184-187 F4.2 0.1nm e_EW19 ?=- rms uncertainty on EW19
189-191 I3 --- o_EW19 ?=- Number of lines for EW19
193-197 F5.2 0.1nm EW20 ?=- Car20 equivalent width (Å)
199-202 F4.2 0.1nm e_EW20 ?=- rms uncertainty on EW20
204-206 I3 --- o_EW20 ?=- Number of lines for EW20
208-212 F5.2 0.1nm EW21 ?=- Car21 equivalent width (Å)
214-217 F4.2 0.1nm e_EW21 ?=- rms uncertainty on EW21
219-221 I3 --- o_EW21 ?=- Number of lines for EW21
223-227 F5.2 0.1nm EW22 ?=- Car22 equivalent width (Å)
229-232 F4.2 0.1nm e_EW22 ?=- rms uncertainty on EW22
234-236 I3 --- o_EW22 ?=- Number of lines for EW22
238-242 F5.2 0.1nm EW23 ?=- Car23 equivalent width (Å)
244-247 F4.2 0.1nm e_EW23 ?=- rms uncertainty on EW23
249-251 I3 --- o_EW23 ?=- Number of lines for EW23
253-257 F5.2 0.1nm EW24 ?=- Car24 equivalent width (Å)
259-262 F4.2 0.1nm e_EW24 ?=- rms uncertainty on EW24
264-266 I3 --- o_EW24 ?=- Number of lines for EW24
268-272 F5.2 0.1nm EW25 ?=- Car25 equivalent width (Å)
274-277 F4.2 0.1nm e_EW25 ?=- rms uncertainty on EW25
279-281 I3 --- o_EW25 ?=- Number of lines for EW25
283-287 F5.2 0.1nm EW27 ?=- Car27 equivalent width (Å)
289-292 F4.2 0.1nm e_EW27 ?=- rms uncertainty on EW27
294-296 I3 --- o_EW27 ?=- Number of lines for EW27
298-302 F5.2 0.1nm EW28 ?=- Car28 equivalent width (Å)
304-307 F4.2 0.1nm e_EW28 ?=- rms uncertainty on EW28
309-311 I3 --- o_EW28 ?=- Number of lines for EW28
313-317 F5.2 0.1nm EW29 ?=- Car29 equivalent width (Å)
319-322 F4.2 0.1nm e_EW29 ?=- rms uncertainty on EW29
324-326 I3 --- o_EW29 ?=- Number of lines for EW29
328-332 F5.2 0.1nm EW30 ?=- Car30 equivalent width (Å)
334-337 F4.2 0.1nm e_EW30 ?=- rms uncertainty on EW30
339-341 I3 --- o_EW30 ?=- Number of lines for EW30
343-347 F5.2 0.1nm EW31 ?=- Car31 equivalent width (Å)
349-352 F4.2 0.1nm e_EW31 ?=- rms uncertainty on EW31
354-356 I3 --- o_EW31 ?=- Number of lines for EW31
358-362 F5.2 0.1nm EW32 ?=- Car32 equivalent width (Å)
364-367 F4.2 0.1nm e_EW32 ?=- rms uncertainty on EW32
369-371 I3 --- o_EW32 ?=- Number of lines for EW32
373-377 F5.2 0.1nm EW33 ?=- Car33 equivalent width (Å)
379-382 F4.2 0.1nm e_EW33 ?=- rms uncertainty on EW33
384-386 I3 --- o_EW33 ?=- Number of lines for EW33
388-392 F5.2 0.1nm EW34 ?=- Car34 equivalent width (Å)
394-397 F4.2 0.1nm e_EW34 ?=- rms uncertainty on EW34
399-401 I3 --- o_EW34 ?=- Number of lines for EW34
403-407 F5.2 0.1nm EW35 ?=- Car35 equivalent width (Å)
409-412 F4.2 0.1nm e_EW35 ?=- rms uncertainty on EW35
414-416 I3 --- o_EW35 ?=- Number of lines for EW35
418-422 F5.2 0.1nm EW36 ?=- Car36 equivalent width (Å)
424-427 F4.2 0.1nm e_EW36 ?=- rms uncertainty on EW36
429-431 I3 --- o_EW36 ?=- Number of lines for EW36
433-437 F5.2 0.1nm EW37 ?=- Car37 equivalent width (Å)
439-442 F4.2 0.1nm e_EW37 ?=- rms uncertainty on EW37
444-446 I3 --- o_EW37 ?=- Number of lines for EW37
448-452 F5.2 0.1nm EW38 ?=- Car38 equivalent width (Å)
454-457 F4.2 0.1nm e_EW38 ?=- rms uncertainty on EW38
459-461 I3 --- o_EW38 ?=- Number of lines for EW38
463-467 F5.2 0.1nm EW39 ?=- Car39 equivalent width (Å)
469-472 F4.2 0.1nm e_EW39 ?=- rms uncertainty on EW39
474-476 I3 --- o_EW39 ?=- Number of lines for EW39
478-482 F5.2 0.1nm EW40 ?=- Car40 equivalent width (Å)
484-487 F4.2 0.1nm e_EW40 ?=- rms uncertainty on EW40
489-491 I3 --- o_EW40 ?=- Number of lines for EW40
493-497 F5.2 0.1nm EW41 ?=- Car41 equivalent width (Å)
499-502 F4.2 0.1nm e_EW41 ?=- rms uncertainty on EW41
504-506 I3 --- o_EW41 ?=- Number of lines for EW41
508-512 F5.2 0.1nm EW42 ?=- Car42 equivalent width (Å)
514-517 F4.2 0.1nm e_EW42 ?=- rms uncertainty on EW42
519-521 I3 --- o_EW42 ?=- Number of lines for EW42
523-527 F5.2 0.1nm EW43 ?=- Car43 equivalent width (Å)
529-532 F4.2 0.1nm e_EW43 ?=- rms uncertainty on EW43
534-536 I3 --- o_EW43 ?=- Number of lines for EW43
538-542 F5.2 0.1nm EW44 ?=- Car44 equivalent width (Å)
544-547 F4.2 0.1nm e_EW44 ?=- rms uncertainty on EW44
549-551 I3 --- o_EW44 ?=- Number of lines for EW44
553-557 F5.2 0.1nm EW45 ?=- Car45 equivalent width (Å)
559-562 F4.2 0.1nm e_EW45 ?=- rms uncertainty on EW45
564-566 I3 --- o_EW45 ?=- Number of lines for EW45
568-572 F5.2 0.1nm EW46 ?=- Car46 equivalent width (Å)
574-577 F4.2 0.1nm e_EW46 ?=- rms uncertainty on EW46
579-581 I3 --- o_EW46 ?=- Number of lines for EW46
583-587 F5.2 0.1nm EW47 ?=- Car47 equivalent width (Å)
589-592 F4.2 0.1nm e_EW47 ?=- rms uncertainty on EW47
594-596 I3 --- o_EW47 ?=- Number of lines for EW47
598-602 F5.2 0.1nm EW48 ?=- Car48 equivalent width (Å)
604-607 F4.2 0.1nm e_EW48 ?=- rms uncertainty on EW48
609-611 I3 --- o_EW48 ?=- Number of lines for EW48
613-617 F5.2 0.1nm EW49 ?=- Car49 equivalent width (Å)
619-622 F4.2 0.1nm e_EW49 ?=- rms uncertainty on EW49
624-626 I3 --- o_EW49 ?=- Number of lines for EW49
628-632 F5.2 0.1nm EW50 ?=- Car50 equivalent width (Å)
634-637 F4.2 0.1nm e_EW50 ?=- rms uncertainty on EW50
639-641 I3 --- o_EW50 ?=- Number of lines for EW50
643-647 F5.2 0.1nm EW51 ?=- Car51 equivalent width (Å)
649-652 F4.2 0.1nm e_EW51 ?=- rms uncertainty on EW51
654-656 I3 --- o_EW51 ?=- Number of lines for EW51
658-662 F5.2 0.1nm EW52 ?=- Car52 equivalent width (Å)
664-667 F4.2 0.1nm e_EW52 ?=- rms uncertainty on EW52
669-671 I3 --- o_EW52 ?=- Number of lines for EW52
673-677 F5.2 0.1nm EW53 ?=- Car53 equivalent width (Å)
679-682 F4.2 0.1nm e_EW53 ?=- rms uncertainty on EW53
684-686 I3 --- o_EW53 ?=- Number of lines for EW53
--------------------------------------------------------------------------------
History:
From electronic version of the journal
References:
Dall'Ora et al., Paper I 2003AJ....126..197D 2003AJ....126..197D Cat. J/AJ/126/197
Monelli et al., Paper II 2003AJ....126..218M 2003AJ....126..218M
Fabrizio et al, Paper IV 2011PASP..123..384F 2011PASP..123..384F
Coppola et al. Paper VI. 2013ApJ...775....6C 2013ApJ...775....6C
Monelli et al. Paper VII. 2014ApJ...796...90M 2014ApJ...796...90M
Fabrizio et al. Paper VIII. 2015A&A...580A..18F 2015A&A...580A..18F Cat. J/A+A/580/A18
Coppola et al. Paper IX. 2015ApJ...814...71C 2015ApJ...814...71C Cat. J/ApJ/814/71
Fabrizio et al. Paper X. 2016ApJ...830..126F 2016ApJ...830..126F Cat. J/ApJ/830/126
(End) Patricia Vannier [CDS] 22-Mar-2013