2020A&A...635A..38E

Query : 2020A&A...635A..38E

2020A&A...635A..38E - Astronomy and Astrophysics, volume 635A, 38-38 (2020/3-1)

Observational constraints on the origin of the elements. III. Evidence for the dominant role of sub-Chandrasekhar SN Ia in the chemical evolution of Mn and Fe in the Galaxy.

EITNER P., BERGEMANN M., HANSEN C.J., CESCUTTI G., SEITENZAHL I.R., LARSEN S. and PLEZ B.

Abstract (from CDS):

The abundance ratios of manganese to iron in late-type stars across a wide metallicity range place tight constraints on the astrophysical production sites of Fe-group elements. In this work, we investigate the chemical evolution of Mn in the Milky Way galaxy using high-resolution spectroscopic observations of stars in the Galactic disc and halo stars, as well as a sample of globular clusters. Our analysis shows that local thermodynamic equilibrium (LTE) leads to a strong imbalance in the ionisation equilibrium of Mn I and Mn II lines. Mn I produces systematically (up to 0.6 dex) lower abundances compared to the Mn II lines. Non-LTE (NLTE) radiative transfer satisfies the ionisation equilibrium across the entire metallicity range, of -3≤[Fe/H]≤-1, leading to consistent abundances from both ionisation stages of the element. We compare the NLTE abundances with Galactic Chemical Evolution models computed using different sources of type Ia and type II supernova (SN Ia and SN II) yields. We find that a good fit to our observations can be obtained by assuming that a significant (∼75%) fraction of SNe Ia stem from a sub-Chandrasekhar (sub-Mch) channel. While this fraction is larger than that found in earlier studies (∼50%), we note that we still require ∼25% near-Mch SNe Ia to obtain solar [Mn/Fe] at [Fe/H]=0. Our new data also suggest higher SN II Mn yields at low metallicity than typically assumed in the literature.

Abstract Copyright: © P. Eitner et al. 2020

Journal keyword(s): nuclear reactions - nucleosynthesis - abundances - stars: abundances - Galaxy: abundances - supernovae: general

Simbad objects: 42

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Number of rows : 42
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 * 85 Peg SB* 00 02 10.3487193861 +27 04 54.599101714 6.47 6.42 5.75 5.16 4.73 G5VbFe-2 544 0
2 HD 3567 PM* 00 38 31.9473242153 -08 18 33.392826667 9.54 9.70 9.23     F7/8wF3 207 0
3 * mu. Cas SB* 01 08 16.3029454473 +54 55 12.561201263 5.93 5.86 5.17 4.55 4.13 G5Vb 571 1
4 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
5 HE 0315+0000 Pe* 03 17 39.0100103112 +00 11 04.600281192     15.516   14.506 F5 13 0
6 HD 22879 Pe* 03 40 22.0652879951 -03 13 01.124265616 7.146 7.222 6.667 6.346 6.016 G0VmF2 496 0
7 HD 74462 RG* 08 48 20.6518818744 +67 26 59.884515744   9.65 8.69 8.25   G5IV 132 0
8 HD 233666 ** 09 42 19.4747365152 +53 28 26.149112004   9.94 9.30     G2w 71 0
9 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
10 BD-13 3442 Pe* 11 46 50.6525751264 -14 06 43.458063768   10.662 10.274     CEMP 107 0
11 HD 106038 PM* 12 12 01.3688687080 +13 15 40.618559661 10.45 10.630 10.162 9.851 9.539 F6wl 191 0
12 HD 115444 Pe* 13 16 42.4590842616 +36 22 52.692135420   9.77 8.97 8.3 7.88 G9V 243 0
13 Wolf 1492 Pe* 13 40 02.4921849768 -00 02 18.750053436 11.601 11.832 11.451 11.184 10.892 sdF0: 284 0
14 HD 121004 PM* 13 53 58.1163626566 -46 32 19.522719077   10.112 9.522     G2V 151 0
15 HD 122196 PM* 14 01 02.1249985961 -38 03 03.313496920   9.19 8.75     F0(V)w 118 0
16 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
17 HD 126238 Pe* 14 25 29.9571431040 -43 38 36.948515460   8.44 7.7 7.44   G3/8wF0/2 111 0
18 HD 126587 Pe* 14 27 00.3636631296 -22 14 38.992940592   9.88 9.60 8.75   CEMP-no 132 0
19 HD 128279 Pe* 14 36 48.5108525999 -29 06 46.612858494 8.64 8.63 8.00     Gw 194 0
20 HD 134169 SB* 15 08 18.0570477216 +03 55 50.144061360 8.14 8.22 7.70     F7V 212 0
21 HD 140283 Pe* 15 43 03.0971190219 -10 56 00.595693188 7.508 7.711 7.212 6.63 8.21 F9VkA5mA1 937 0
22 * 39 Ser SB* 15 53 12.0971773368 +13 11 47.854440914 6.72 6.71 6.12 5.58 5.23 G1VFe-1 201 0
23 HD 144061 PM* 15 58 21.0274554816 +70 53 39.982348068   7.903 7.280 8.00   G2V 67 0
24 HD 148816 PM* 16 30 28.4586254384 +04 10 41.602836534 7.75 7.81 7.28 6.82 6.49 F7V 310 0
25 HD 157466 PM* 17 22 27.6459785904 +24 52 45.935235804       6.6   F8V 126 0
26 HD 158226 PM* 17 26 43.1968765468 +31 04 37.895885806   9.09   8.1   G1V 110 0
27 HD 160933 SB* 17 36 40.0019692008 +69 34 14.694227616   7.00   6.0   F9IV-V 95 0
28 HD 160693 PM* 17 39 36.8721883235 +37 11 01.504256846 8.94 8.92   8.0   G0 210 0
29 HD 170357 PM* 18 26 37.7257306889 +46 05 01.600987748   8.93   7.9   G1V 56 0
30 HD 171620 PM* 18 34 30.6937288128 +34 24 56.298656232   8.06   7.2   F6p 80 0
31 HD 175305 RG* 18 47 06.4416868934 +74 43 31.451436187 8.07 7.93 7.18 6.52 6.03 G5III 220 0
32 * 3 Cyg ** 19 25 25.7579593032 +24 54 45.990132161   6.70   5.9   F8 97 0
33 HD 184448 PM* 19 32 02.5281231589 +50 10 53.561886252   8.70 8.05 7.7   F8 64 0
34 HD 186379 PM* 19 43 07.0299027408 +24 35 52.587634884   7.41   6.5   F8V 88 0
35 HD 186478 SB* 19 45 14.1409752672 -17 29 27.071239056   10.116 9.302 8.527 7.961 K2III 154 0
36 HD 198300 PM* 20 46 35.4768049876 +59 51 09.479556630   9.30 8.96 8.84   G0 50 0
37 HD 200580 SB* 21 04 07.3930420137 +02 59 40.129822016 7.82 7.85   7.0   F9V 165 0
38 HD 204155 PM* 21 26 42.9050916792 +05 26 29.902289568   9.03   8.1   F7V 132 0
39 HD 208906 PM* 21 58 40.8320586106 +29 48 45.462564846 7.35 7.47 6.96 6.53 6.22 G0VmF2 174 0
40 HD 215257 PM* 22 43 50.7183081145 +03 53 12.631454280   7.93   7.1   F5V 153 0
41 HD 218209 PM* 23 05 06.0914711839 +68 25 01.432343968 8.21 8.13 7.48 6.94 6.57 G8 138 0
42 HD 221876 PM* 23 35 42.5402929176 +20 34 50.335581504   9.66   8.8   G2 49 0

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