2023MNRAS.524.4418M

Query : 2023MNRAS.524.4418M

2023MNRAS.524.4418M - Mon. Not. R. Astron. Soc., 524, 4418-4430 (2023/September-3)

An investigation of non-canonical mixing in red giant stars using APOGEE 12C/13C ratios observed in open cluster stars.

McCORMICK C., MAJEWSKI S.R., SMITH V.V., HAYES C.R., CUNHA K., MASSERON T., WEISS A., SHETRONE M., ALMEIDA A., FRINCHABOY P.M., GARCIA-HERNANDEZ D.A. and NITSCHELM C.

Abstract (from CDS):

Standard stellar evolution theory poorly predicts the surface abundances of chemical species in low-mass, red giant branch (RGB) stars. Observations show an enhancement of p-p chain and CNO cycle products in red giant envelopes, which suggests the existence of non-canonical mixing that brings interior burning products to the surface of these stars. The 12C/13C ratio is a highly sensitive abundance metric used to probe this mixing. We investigate extra RGB mixing by examining: (1) how 12C/13C is altered along the RGB, and (2) how 12C/13C changes for stars of varying age and mass. Our sample consists of 43 red giants, spread over 15 open clusters from the Sloan Digital Sky Survey's APOGEE DR17, that have reliable 12C/13C ratios derived from their APOGEE spectra. We vetted these 12C/13C ratios and compared them as a function of evolution and age/mass to the standard mixing model of stellar evolution, and to a model that includes prescriptions for RGB thermohaline mixing and stellar rotation. We find that the observations deviate from standard mixing models, implying the need for extra mixing. Additionally, some of the abundance patterns depart from the thermohaline model, and it is unclear whether these differences are due to incomplete observations, issues inherent to the model, our assumption of the cause of extra mixing, or any combination of these factors. Nevertheless, the surface abundances across our age/mass range clearly deviate from the standard model, agreeing with the notion of a universal mechanism for RGB extra mixing in low-mass stars.

Abstract Copyright: © 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society

Journal keyword(s): convection - instabilities - stars: abundances - stars: atmospheres - stars: interiors - open clusters and associations: general

Simbad objects: 64

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Number of rows : 64
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 2MASS J00320079+8511465 RG* 00 32 00.7909502352 +85 11 46.398428232   13.86 12.63     ~ 31 0
2 Cl* NGC 188 MT 27 * 00 35 09.2238287976 +85 17 16.967784624   13.511 12.363     ~ 18 0
3 2MASS J00415197+8527070 RG* 00 41 51.8964947784 +85 27 07.210321092   13.458 12.287     ~ 25 0
4 NGC 188 3018 * 00 44 12.3698787024 +85 09 31.368800340 14.796 12.94 11.37 10.471   K4III 26 0
5 NGC 188 1069 * 00 44 52.4719240440 +85 14 05.716684464 14.961 13.59 12.29 11.592 10.993 K2III 41 0
6 NGC 188 2072 SB* 00 45 51.1729912872 +85 18 08.357369796 15.098 13.79 12.48 11.706 11.099 ~ 37 0
7 2MASS J00463920+8523336 RG* 00 46 39.3046024056 +85 23 33.788948028 14.353 12.843 11.541 10.799 10.151 ~ 26 0
8 NGC 188 1105 HB* 00 46 59.6860420800 +85 13 15.804479064 14.628 13.49 12.31 11.722 11.173 K0III-IV 40 0
9 NGC 188 OpC 00 47 11.5 +85 14 38           ~ 922 0
10 Cl* NGC 188 SMV 11714 HB* 00 57 18.4934816184 +85 10 28.797700476 14.854 13.714 12.442     ~ 29 0
11 Cl* NGC 188 PKM 1947 HB* 00 58 16.8912008760 +85 40 18.491541456   13.611 13.030     ~ 23 0
12 IC 166 OpC 01 52 22.6 +61 51 25   13.0 11.7     ~ 89 0
13 2MASS J01522919+6159381 * 01 52 29.1966712320 +61 59 38.123171160           ~ 14 0
14 NGC 1798 OpC 05 11 39.4 +47 41 28           ~ 73 0
15 Cl* NGC 1798 PL 43 * 05 11 47.9566601180 +47 40 25.774048808   14.845 12.875   10.623 ~ 16 0
16 Cl Berkeley 17 OpC 05 20 31.2 +30 34 26           ~ 174 0
17 2MASS J05203650+3030351 RG* 05 20 36.4960362624 +30 30 35.115791832     14.09     ~ 28 0
18 UCAC4 603-020867 RG* 05 20 37.9920344356 +30 34 41.510300985     14.758 14.144   ~ 22 0
19 UCAC4 357-012110 * 06 14 58.4514970344 -18 38 43.054113876   13.498 12.110 11.749   ~ 12 0
20 NGC 2204 4137 * 06 15 31.4037478800 -18 42 56.430322488   12.80 11.97     K4.5III 20 0
21 NGC 2204 OpC 06 15 31.7 -18 40 12   9.35 8.6     ~ 153 0
22 NGC 2204 3325 * 06 15 36.6640851696 -18 46 52.748599224   13.254 11.563     ~ 26 0
23 2MASS J07381507+2134589 RG* 07 38 15.0652987296 +21 34 59.011027824   12.18 11.29   9.66 ~ 31 0
24 NGC 2420 115 * 07 38 21.6698378256 +21 33 51.361329780   12.69 11.56     G5Ib 36 0
25 NGC 2420 OpC 07 38 24.5 +21 34 30   9.0 8.3     ~ 477 0
26 BD+12 1913 RG* 08 49 34.6572308376 +11 51 25.698205116   10.820 9.528     K2 54 0
27 NGC 2682 OpC 08 51 23.0 +11 48 50           ~ 2344 0
28 NGC 4337 13 * 12 24 01.0227127008 -58 07 55.535656548   13.43 11.86     ~ 12 0
29 NGC 4337 OpC 12 24 05.3 -58 07 30   9.44 8.9     ~ 52 0
30 2MASS J12260433-6324196 * 12 26 04.33800 -63 24 19.6452           ~ 4 0
31 Cl VDBH 131 OpC 12 26 10 -63 24.0           ~ 12 0
32 2MASS J12261653-6325258 * 12 26 16.53984 -63 25 25.8240           ~ 3 0
33 Cl* Trumpler 20 PMF 6566 * 12 38 58.0601734728 -60 30 28.569389940 15.062 15.191 13.603   12.110 ~ 17 0
34 Cl* Trumpler 20 PMF 5320 * 12 39 04.1070291432 -60 34 00.126914988 14.995 15.063 13.520 13.188 12.057 ~ 18 0
35 Cl* Trumpler 20 MG 794 * 12 39 10.0353210576 -60 38 40.152194556 15.226 15.311 13.787   12.196 ~ 20 0
36 Cl* Trumpler 20 PMF 4431 HB* 12 39 26.9962772736 -60 36 05.245250652 15.636 15.913 14.519   13.207 ~ 22 0
37 Cl Trumpler 20 OpC 12 39 31.7 -60 38 13           ~ 112 0
38 Cl* Trumpler 20 PMF 2770 * 12 40 02.6007719880 -60 39 54.490453092 15.299 15.401 13.780   12.273 ~ 19 0
39 Cl* Trumpler 20 PMF 4098 * 12 40 04.5087830064 -60 36 56.582531640 15.337 15.358 13.690   12.126 ~ 19 0
40 Cl* Trumpler 20 PMF 4594 * 12 40 07.5530362512 -60 35 44.466957276 15.157 15.182 13.548   12.036 ~ 18 0
41 Cl* Trumpler 20 PMF 1482 * 12 40 24.7902912288 -60 43 10.235954892 15.363 15.521 13.922   12.414 ~ 19 0
42 Cl* Trumpler 20 PMF 3224 * 12 40 29.4962741496 -60 38 51.818471988 15.777 15.858 14.264   12.733 ~ 10 0
43 2MASS J16464504-2558201 * 16 46 45.04296 -25 58 20.1972           ~ 2 0
44 ESO 518-3 OpC 16 47 02.4 -25 48 36           ~ 19 0
45 NGC 6791 OpC 19 20 53.0 +37 46 41   10.52 9.5     ~ 1040 0
46 2MASS J19211606+3746462 LP* 19 21 16.0711770682 +37 46 46.327191165           ~ 25 0
47 2MASS J19212437+3735402 * 19 21 24.3674917416 +37 35 40.245548676           ~ 10 0
48 2MASS J19213390+3750202 V* 19 21 33.9027178053 +37 50 20.241589833           ~ 27 0
49 2MASS J19213635+3739445 * 19 21 36.3521308224 +37 39 44.567846748           ~ 11 0
50 2MASS J19411705+4010517 RG* 19 41 17.0521593408 +40 10 51.852693756   12.524 11.125 11.243 9.92 ~ 36 0
51 NGC 6819 OpC 19 41 18.5 +40 11 24   8.21 7.3     ~ 635 0
52 2MASS J19411971+4023362 * 19 41 19.7118904608 +40 23 36.191917824           ~ 16 0
53 NGC 6819 975 RG* 19 41 26.5876718159 +40 11 41.781064648   13.59 12.22   10.72 K1IV 41 0
54 TYC 3140-2350-1 RG* 19 41 34.3948190103 +40 17 48.192852940   12.96 11.37     K4III 54 0
55 UCAC4 639-088963 * 20 18 34.7612662200 +37 40 56.569827720   17.266 14.648 13.890   ~ 7 0
56 UCAC4 639-088987 * 20 18 37.8424636104 +37 43 01.018457004   16.80 14.72 14.02   ~ 6 0
57 UCAC4 639-089055 * 20 18 44.9716886544 +37 44 17.456840592       13.12   ~ 5 0
58 Cl Berkeley 85 OpC 20 18 46.1 +37 44 38           ~ 28 0
59 UCAC4 639-089220 * 20 19 03.9744329808 +37 45 00.249261516       13.722   ~ 7 0
60 2MASS J23555312+5641203 * 23 55 53.12280 +56 41 20.3568           ~ 2 0
61 2MASS J23570744+5641417 * 23 57 07.44864 +56 41 41.7372           ~ 2 0
62 2MASS J23571013+5647167 * 23 57 10.13256 +56 47 16.7100           ~ 2 0
63 NGC 7789 OpC 23 57 20.2 +56 43 34   7.68 6.7     ~ 528 0
64 2MASS J23581471+5651466 RG* 23 58 14.7154514856 +56 51 46.686956868     11.576   9.887 ~ 25 0

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