2019A&A...627A.177R

Query : 2019A&A...627A.177R

2019A&A...627A.177R - Astronomy and Astrophysics, volume 627A, 177-177 (2019/7-2)

Non-LTE analysis of K I in late-type stars.

REGGIANI H., AMARSI A.M., LIND K., BARKLEM P.S., ZATSARINNY O., BARTSCHAT K., FURSA D.V., BRAY I., SPINA L. and MELENDEZ J.

Abstract (from CDS):

Context. Older models of Galactic chemical evolution (GCE) predict [K/Fe] ratios as much as 1dex lower than those inferred from stellar observations. Abundances of potassium are mainly based on analyses of the 7698Å resonance line, and the discrepancy between GCE models and observations is in part caused by the assumption of local thermodynamic equilibrium (LTE) in spectroscopic analyses. Aims. We study the statistical equilibrium of KI, focusing on the non-LTE effects on the 7698Å line. We aim to determine how non-LTE abundances of potassium can improve the analysis of its chemical evolution, and help to constrain the yields of GCE models. Methods. We construct a new model KI atom that employs the most up-to-date atomic data.In particular, we calculate and present inelastic e+K collisional excitation cross-sections from the convergent close-coupling (CCC) and the B-Spline R-matrix (BSR) methods, and H+K collisions from the two-electron model (LCAO). We constructed a fine, extended grid of non-LTE abundance corrections based on 1D MARCS models that span 4000<Teff/K<8000, 0.50<logg<5.00, -5.00<[Fe/H]<+0.50, and applied the corrections to potassium abundances extracted from the literature. Results.In concordance with previous studies, we find severe non-LTE effects in the 7698Å line. The line is stronger in non-LTE and the abundance corrections can reach approximately -0.7dex for solar-metallicity stars such as Procyon. We determine potassium abundances in six benchmark stars, and obtain consistent results from different optical lines. We explore the effects of atmospheric inhomogeneity by computing for the first time a full 3D non-LTE stellar spectrum of KI lines for a test star. We find that 3D modeling is necessary to predict a correct shape of the resonance 7698Å line, but the line strength is similar to that found in 1D non-LTE.Conclusions. Our non-LTE abundance corrections reduce the scatter and change the cosmic trends of literature potassium abundances.In the regime [Fe/H]≤-1.0 the non-LTE abundances show a good agreement with the GCE model with yields from rotating massive stars. The reduced scatter of the non-LTE corrected abundances of a sample of solar twins shows that line-by-line differential analysis techniques cannot fully compensate for systematic LTE modelling errors; the scatter introduced by such errors introduces a spurious dispersion to K evolution.

Abstract Copyright: © ESO 2019

Journal keyword(s): stars: abundances - stars: late-type - line: formation - Galaxy: evolution - Galaxy: abundances

VizieR on-line data: <Available at CDS (J/A+A/627/A177): abund.dat nltegrid.dat states.dat bsrra.dat cccra.dat bsriora.dat ccciora.dat>

Simbad objects: 109

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Number of rows : 109
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 BPS CS 30339-0015 Pe* 00 16 58.1264205648 -33 48 17.657656632   15.68 15.28     ~ 9 0
2 HD 2796 Pe* 00 31 16.9147531152 -16 47 40.790991624 9.58 9.28 8.50 8.14 8.67 Fw 193 0
3 BPS CS 22942-0011 Pe* 00 54 13.0064286840 -25 04 33.821313060   13.567 12.881     ~ 18 0
4 BPS CS 22953-0003 Pe* 01 02 15.8723379360 -61 43 45.836012208   14.43 13.75 13.339 12.886 KIIvw 70 0
5 BPS CS 22183-0031 Pe* 01 09 05.0900915136 -04 43 21.343580436   14.24 13.62 13.178 12.724 ~ 46 0
6 SB 467 Pe* 01 09 28.6029651432 -26 39 48.611932020   13.77 13.36     F0: 13 0
7 BPS CS 29514-0017 Pe* 01 09 44.7937073256 -26 16 54.959256048   14.17 13.55     ~ 8 0
8 BPS CS 29518-0051 Pe* 01 24 10.0049733024 -28 15 21.115362312 13.567 13.62 13.02 12.594 12.162 ~ 32 0
9 HD 9986 PM* 01 37 40.8790403832 +12 04 42.170345796   7.43 6.76     G2V 116 0
10 HD 11582 Pe* 01 53 00.2437340784 -34 17 36.393581688   10.27 9.58     G5/6(V)w 46 0
11 BPS CS 22958-0065 Pe* 02 02 53.6139607344 -53 38 40.714175472   14.92 14.49 14.46   ~ 9 0
12 BPS CS 22958-0074 Pe* 02 10 34.1954020056 -53 22 42.948898248   15.23 14.75 14.77   ~ 10 0
13 HD 13531 BY* 02 13 13.3350408936 +40 30 27.317912976   8.06 7.36     G7V 81 0
14 HD 13979 Pe* 02 15 20.8534060680 -25 54 54.872825148   9.81 9.18     F/Gw 88 0
15 HD 13931 PM* 02 16 47.3787138792 +43 46 22.786242816       7.2   G0 96 1
16 CD-36 1052 HB* 02 47 37.4429774568 -36 06 27.032483376   10.426 9.982 9.818 9.37 Fwl 73 1
17 HE 0305-5442 Pe* 03 06 29.5014981984 -54 30 32.498486568   14.44 13.70 13.212 12.715 KIIvw 74 0
18 HD 19445 PM* 03 08 25.5883873084 +26 19 51.400965175 8.29 8.52 8.06 7.60 7.27 G2VFe-3 771 0
19 2MASS J03142084-1035112 Pe* 03 14 20.8495451808 -10 35 11.277788028   13.54 12.73 12.204 11.693 KIIvw 67 0
20 HE 0315-1528 Pe* 03 17 36.0539075280 -15 17 22.698017664   14.05 13.34 12.853 12.372 CEMP-no 20 0
21 * kap01 Cet BY* 03 19 21.6964175772 +03 22 12.714979884 5.71 5.52 4.85 4.27 3.91 G5V 890 0
22 BPS CS 22968-0026 Pe* 03 20 48.8775648240 -55 38 15.974963088   14.57 14.19 14.12   ~ 13 0
23 HE 0409-1212 Pe* 04 12 13.8814287960 -12 05 05.075250072   13.843 12.897   11.764 ~ 65 0
24 BPS CS 22186-0002 Pe* 04 13 57.2123559888 -36 46 25.311578052   13.67 13.77     ~ 13 0
25 BPS CS 22186-0017 Pe* 04 16 22.2705533064 -34 17 57.675545448   13.96 13.53     ~ 14 0
26 BPS CS 22182-0047 Pe* 04 22 30.1513602408 -27 34 50.461152996   13.72 13.24     ~ 9 0
27 HD 31128 PM* 04 52 09.9097086888 -27 03 50.940147636   9.55 9.14     F3/5Vw 141 0
28 HD 32963 PM* 05 07 55.7640826464 +26 19 40.674925236   8.22 7.59     G5IV 108 0
29 HD 33636 Pe* 05 11 46.4494089528 +04 24 12.742146936   7.64   6.6   G0V_CH-0.3 190 1
30 HD 250792 Pe* 06 03 14.8636143602 +19 21 38.696218609 9.89 9.898 9.310 8.954 8.547 G1 165 0
31 HD 43162 LM* 06 13 45.2953762392 -23 51 42.971547996   7.068 6.366 5.94 5.61 G6.5V 174 0
32 HD 45346 PM* 06 24 43.7598139752 -43 24 20.427159816   9.32 8.63     G5V 59 0
33 HD 45184 PM* 06 24 43.8795895848 -28 46 48.415725948   7.01 6.39 6.24 8.94 G2Va 204 1
34 HD 45282 Pe* 06 26 40.7720940072 +03 25 29.792391024 8.71 8.69 8.03     Gwl 154 0
35 G 90-3 Pe* 07 29 50.8459373520 +32 51 58.309757856   11.0 10.4 10.2   sd:F8 75 0
36 BD+24 1676 Pe* 07 30 41.2662525096 +24 05 10.248524088   11.15 10.7 10.4   F 129 0
37 * alf CMi SB* 07 39 18.11950 +05 13 29.9552 0.82 0.79 0.37 -0.05 -0.28 F5IV-V+DQZ 1864 0
38 HD 64090 Pe* 07 53 33.1208795337 +30 36 18.256204963 8.75 8.86 8.25 7.70 7.30 K0:V_Fe-3 359 0
39 Ross 889 Pe* 09 40 43.2053340378 +01 00 29.511836741       10.39   sdA4 160 0
40 BD-03 2764 PM* 09 45 37.8300847800 -04 40 28.499674008   11.333 10.849 10.499 10.175 ~ 35 0
41 HD 84937 Pe* 09 48 56.0992891997 +13 44 39.326709913 8.49 8.68 8.32 7.97 7.70 F8Vm-5 795 0
42 HD 87359 PM* 10 04 26.7894493488 -07 13 06.241421568   8.18 7.48     G6V 64 0
43 HD 94028 PM* 10 51 28.1256073369 +20 16 38.965439278 8.51 8.69 8.22 7.82 7.54 F8 361 0
44 * 47 UMa PM* 10 59 27.9727514012 +40 25 48.920572724   5.66   4.7   G1-VFe-0.5 773 1
45 HD 98618 PM* 11 21 29.0692801008 +58 29 03.702495840   8.303 7.651     G5V 79 0
46 HD 101364 PM* 11 40 28.4839370424 +69 00 30.597806088   9.32 8.67     G5 72 0
47 HD 103095 Pe* 11 52 58.7673387755 +37 43 07.254113125 7.38 7.20 6.45 5.80 5.35 K1V_Fe-1.5 802 1
48 BD-01 2582 Pe* 11 53 37.3231720128 -02 00 36.728298108   10.29 9.60     CEMP-s 107 0
49 HD 106252 PM* 12 13 29.5095375792 +10 02 29.887248516   8.00   7.0   G0 188 1
50 HD 108317 Pe* 12 26 36.8319587208 +05 18 09.023783400       7.7   G2IVm-5 166 0
51 HD 112257 PM* 12 55 08.2639227312 +27 45 58.894557768 8.70 8.46 7.79     G6V 73 0
52 BD+29 2356 RG* 13 01 52.4291777760 +29 11 17.936259972   12.27 11.50     ~ 27 0
53 HD 119516 HB* 13 43 26.7251638944 +15 34 31.069770096   9.59 9.12     G5 78 0
54 HD 122196 PM* 14 01 02.1249985961 -38 03 03.313496920   9.19 8.75     F0(V)w 118 0
55 HD 122563 Pe* 14 02 31.8455084952 +09 41 09.944391876 7.47 7.10 6.19 5.37 4.79 G8:III:Fe-5 854 0
56 HD 126238 Pe* 14 25 29.9571431040 -43 38 36.948515460   8.44 7.7 7.44   G3/8wF0/2 111 0
57 BPS BS 16477-0003 Pe* 14 32 56.9231765928 +06 46 06.974256288   14.94 14.22 13.727 13.224 ~ 35 0
58 HD 133600 PM* 15 05 13.2479655000 +06 17 23.689626792       7.8   G0 61 0
59 BPS CS 22884-0020 Pe* 15 34 22.4205856152 -08 33 40.206649428 15.27 15.41 14.95     A 8 0
60 HD 140283 Pe* 15 43 03.0971190219 -10 56 00.595693188 7.508 7.711 7.212 6.63 8.21 F9VkA5mA1 937 0
61 * psi Ser PM* 15 44 01.8185683752 +02 30 54.600593940       5.4   G2.5V 237 0
62 HD 142331 PM* 15 54 19.7884766136 -08 34 49.370849400   9.39 8.75     G5V 46 0
63 HD 143436 PM* 16 00 18.8372107008 +00 08 13.230170916       7.6   G3V 46 0
64 * 18 Sco PM* 16 15 37.2702755653 -08 22 09.982125430   6.15 5.50     G2Va 604 0
65 G 153-64 PM* 16 32 30.0312394032 -08 33 38.232767124   12.18 11.52     ~ 15 0
66 BD+17 3248 HB* 17 28 14.4690179544 +17 30 35.847574776   10.02 9.34     KIIvw 224 0
67 HD 167060 PM* 18 17 44.1430022568 -61 42 31.620102804   9.56 8.92     G3V 52 0
68 HD 175305 RG* 18 47 06.4416868934 +74 43 31.451436187 8.07 7.93 7.18 6.52 6.03 G5III 220 0
69 HD 178443 HB* 19 10 36.8478001512 -43 16 36.165827604 10.82 10.73 10.05     F8 51 0
70 BPS CS 22896-0015 Pe* 19 18 45.3480520464 -55 24 45.028220436   14.82 14.17 14.19   ~ 12 0
71 UCAC2 7177623 Pe* 19 42 26.8926894816 -56 58 34.059037980   14.27 13.63     ~ 51 0
72 HD 186478 SB* 19 45 14.1409752672 -17 29 27.071239056   10.116 9.302 8.527 7.961 K2III 154 0
73 UCAC2 5726991 Pe* 19 53 49.7804195664 -59 40 00.163242192   13.592 12.620   11.48 KIIvw 47 0
74 HD 188510 PM* 19 55 09.6782304000 +10 44 27.398607828 9.30 9.41   8.5   G5V: 253 0
75 BD-18 5550 Pe* 19 58 49.7371417608 -18 12 11.140126164 10.18 10.03 9.35 9.04 8.74 CEMP-no 173 0
76 HD 192263 BY* 20 13 59.8455790536 -00 52 00.769626768 9.447 8.724 7.767 7.231 6.771 K1/2V 244 1
77 BPS CS 22873-0166 Pe* 20 19 22.0362485016 -61 30 15.119987544   12.818 11.802 11.52 10.57 KIIvw 55 0
78 BPS CS 22943-0095 Pe* 20 27 29.9870188056 -46 50 56.315093100 11.857 12.063 12.62     ~ 24 0
79 BPS CS 22885-0203 Pe* 20 30 19.2728699016 -37 42 17.118207072   14.64 14.23     ~ 9 0
80 BPS CS 22955-0110 BS* 20 32 26.4789256512 -25 08 25.457499276   13.954 13.61 13.69   A 9 0
81 HD 197027 PM* 20 41 54.6335853576 -27 12 57.415436208   9.80 9.15     G3V 76 0
82 BD-15 5781 Pe* 20 45 34.5446785080 -14 31 15.154963788   11.57 10.83     KIIvw 50 0
83 BPS CS 22897-0008 Pe* 21 03 11.8565397504 -65 05 08.852220600   14.02 13.33     CEMP-no 70 0
84 HD 201891 Pe* 21 11 59.0321495469 +17 43 39.890919730 7.74 7.88 7.37 6.91 6.59 G5V_Fe-2.5 393 0
85 G 25-24 Pe* 21 16 41.6331334390 -01 18 08.767854372   12.058 11.591 11.284 10.91 ~ 52 0
86 HD 202628 PM* 21 18 27.2696247000 -43 20 04.743062448   7.39 6.742     G5V 186 0
87 BPS CS 30492-0110 Pe* 21 21 45.8298095616 -38 08 57.881349888   15.38 14.63     CEMP-no 12 0
88 BPS CS 29495-0005 Pe* 21 32 49.1878299552 -27 34 08.723027244   14.73 14.32     ~ 8 0
89 BPS CS 29495-0041 Pe* 21 36 33.2900452248 -28 18 48.440793960 14.111 14.15 13.34   12.222 ~ 32 0
90 HE 2141-3741 RG* 21 44 51.1647807408 -37 27 55.017356112   14.10 13.47     CEMP-no 55 0
91 BPS CS 22951-0059 Pe* 21 50 25.9919744232 -44 48 49.028332248   15.19 14.56 14.51   ~ 9 0
92 BPS CS 22956-0050 Pe* 21 58 05.8340681280 -65 13 27.160682772   14.95 14.25 13.745 13.211 CEMP-no 40 0
93 BPS BS 17569-0049 Pe* 22 04 58.3605927288 +04 01 32.135832984 14.503 14.263 13.126 13.122 12.259 ~ 34 0
94 BPS CS 22881-0036 Pe* 22 07 58.4409920904 -40 44 16.477523484   14.42 13.95 13.633 13.278 CEMP-s 38 0
95 BD+17 4708 SB* 22 11 31.3756832854 +18 05 34.177983548 9.73 9.91 9.46 9.03 8.70 sdF8 569 0
96 BPS CS 22886-0012 Pe* 22 13 25.8824353296 -08 43 43.376828736   15.02 14.54 14.39   ~ 14 0
97 BPS CS 22956-0106 Pe* 22 16 50.4146488272 -66 05 05.080303212   14.89 14.46 14.48   ~ 8 0
98 BPS CS 22892-0052 Pe* 22 17 01.6558764360 -16 39 27.051026544   14.03 13.20 13.06 12.19 KIIvw 448 0
99 BPS CS 29502-0092 Pe* 22 22 35.9982138384 -01 38 27.620508552   12.64 11.87 11.365 10.862 CEMP-no 54 0
100 BPS CS 22893-0010 Pe* 22 58 11.7253311672 -11 56 45.431946204   15.34 14.73 14.70   ~ 16 0
101 BD+38 4955 SB* 23 13 38.8205905578 +39 25 02.589638688 11.52 11.67 11.01 10.38 9.92 F6 121 0
102 BPS CS 29513-0014 HB* 23 14 24.9131264592 -37 53 06.920856276 14.435 14.51 13.80     CEMP-s 11 0
103 HD 219617 ** 23 17 05.04375 -13 51 03.5971 8.41 8.60 8.14 7.70 7.37 F8 309 0
104 BPS CS 29513-0032 Pe* 23 22 19.0938404592 -39 44 24.309461652 14.757 14.97 14.47     ~ 16 0
105 HE 2323-0256 Pe* 23 26 29.8073738880 -02 39 58.036383180   15.12 14.36   13.358 CEMP-no 180 0
106 BPS CS 22945-0028 RG* 23 31 13.5632038296 -66 29 57.771375900 15.167 15.32 14.64   13.728 ~ 17 0
107 BPS CS 22894-0004 Pe* 23 32 39.5577492720 -00 56 12.553726416   14.58 14.17     ~ 10 0
108 HE 2334-0604 RG* 23 37 28.6873103640 -05 47 56.594641632   14.03 13.28 12.768 12.249 KIIvw 70 0
109 2MASS J23485776-2939228 Pe* 23 48 57.7540034928 -29 39 22.824085392 14.759   14.3   13.512 ~ 35 0

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