2016MNRAS.461.3336C

Query : 2016MNRAS.461.3336C

2016MNRAS.461.3336C - Mon. Not. R. Astron. Soc., 461, 3336-3352 (2016/September-3)

The Gaia-ESO Survey: revisiting the Li-rich giant problem.

CASEY A.R., RUCHTI G., MASSERON T., RANDICH S., GILMORE G., LIND K., KENNEDY G.M., KOPOSOV S.E., HOURIHANE A., FRANCIOSINI E., LEWIS J.R., MAGRINI L., MORBIDELLI L., SACCO G.G., WORLEY C.C., FELTZING S., JEFFRIES R.D., VALLENARI A., BENSBY T., BRAGAGLIA A., FLACCOMIO E., FRANCOIS P., KORN A.J., LANZAFAME A., PANCINO E., RECIO-BLANCO A., SMILJANIC R., CARRARO G., COSTADO M.T., DAMIANI F., DONATI P., FRASCA A., JOFRE P., LARDO C., DE LAVERNY P., MONACO L., PRISINZANO L., SBORDONE L., SOUSA S.G., TAUTVAISIENE G., ZAGGIA S., ZWITTER T., DELGADO MENA E., CHORNIY Y., MARTELL S.L., SILVA AGUIRRE V., MIGLIO A., CHIAPPINI C., MONTALBAN J., MOREL T. and VALENTINI M.

Abstract (from CDS):

The discovery of lithium-rich giants contradicts expectations from canonical stellar evolution. Here we report on the serendipitous discovery of 20 Li-rich giants observed during the Gaia-ESO Survey, which includes the first nine Li-rich giant stars known towards the CoRoT fields. Most of our Li-rich giants have near-solar metallicities and stellar parameters consistent with being before the luminosity bump. This is difficult to reconcile with deep mixing models proposed to explain lithium enrichment, because these models can only operate at later evolutionary stages: at or past the luminosity bump. In an effort to shed light on the Li-rich phenomenon, we highlight recent evidence of the tidal destruction of close-in hot Jupiters at the sub-giant phase. We note that when coupled with models of planet accretion, the observed destruction of hot Jupiters actually predicts the existence of Li-rich giant stars, and suggests that Li-rich stars should be found early on the giant branch and occur more frequently with increasing metallicity. A comprehensive review of all known Li-rich giant stars reveals that this scenario is consistent with the data. However, more evolved or metal-poor stars are less likely to host close-in giant planets, implying that their Li-rich origin requires an alternative explanation, likely related to mixing scenarios rather than external phenomena.

Abstract Copyright: © 2016 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society

Journal keyword(s): stars: abundances - stars: abundances

Simbad objects: 54

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Number of rows : 54
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 NGC 362 GlC 01 03 14.26 -70 50 55.6     6.58     ~ 1085 0
2 V* OP And RS* 01 36 27.2005869192 +48 43 22.000439676   7.47 6.22     K1III: 101 0
3 Cl Berkeley 21 245 * 05 51 34.4803217856 +21 48 29.280682548   18.878 17.55     ~ 14 0
4 Cl Berkeley 21 OpC 05 51 43.2 +21 48 43   12.26 11.1     ~ 118 0
5 HD 39853 RG* 05 54 43.6305696648 -11 46 27.098071500   7.148 5.613     K4III 116 0
6 Cl Trumpler 5 OpC 06 36 30.2 +09 27 54           ~ 122 0
7 Ass Vel OB 2 As* 08 09 22.478 -47 21 03.46           ~ 272 0
8 NGC 2547 OpC 08 09 52.360 -49 10 35.01           ~ 400 0
9 GES J08095783-4701385 * 08 09 57.8387227512 -47 01 38.342745156     12.63   11.45 ~ 12 0
10 2MASS J08102116-4740125 Y*? 08 10 21.1558692576 -47 40 12.507501000   15.70 14.27   12.74 ~ 10 0
11 2MASS J08110403-4852137 Y*O 08 11 04.0349789376 -48 52 13.807931628       14.19 13.51 ~ 11 0
12 HD 233517 * 08 22 46.7147840400 +53 04 49.230337440   10.85 9.71     K2 90 0
13 2MASS J08395152-5315159 * 08 39 51.5292026136 -53 15 15.912555120           ~ 9 0
14 IC 2391 OpC 08 41 10.1 -52 59 28           ~ 822 0
15 NGC 2682 OpC 08 51 23.0 +11 48 50           ~ 2342 0
16 2MASS J10300194-6321203 * 10 30 01.9593503280 -63 21 20.337739056           ~ 9 0
17 2MASS J10323205-6324012 * 10 32 32.0551834344 -63 24 01.187579736           ~ 9 0
18 IC 2602 OpC 10 42 27.1 -64 25 34           ~ 675 0
19 2MASS J10495719-6341212 * 10 49 57.1964867760 -63 41 21.257832840           ~ 9 0
20 2MASS J10503632-6512237 * 10 50 36.3217437336 -65 12 23.689164168           ~ 9 0
21 2MASS J11000515-7623259 * 11 00 05.1415034760 -76 23 26.019846852           ~ 8 0
22 NAME Cha 1 MoC 11 06 48 -77 18.0           ~ 1154 1
23 HD 108471 * 12 27 42.0816469128 +08 36 37.237288644   7.293 6.342     G8III 46 0
24 2MASS J12393345-2643135 AB* 12 39 33.4584688680 -26 43 13.530240984   14.314 13.211   11.967 ~ 13 0
25 HD 112127 C* 12 53 55.7452187592 +26 46 47.982961020 9.56 8.14 6.88 5.97 5.39 C-R4IIIb 153 0
26 NGC 5272 265 RG* 13 41 55.0321396248 +28 19 14.930940144   14.53 13.18     ~ 57 0
27 * 9 Boo PM* 13 56 34.1810272752 +27 29 31.493189040 8.160 6.440 5.000     K3III 99 0
28 * phi Vir PM* 14 28 12.1389021744 -02 13 40.649015856   5.522 4.840     G2IV 191 0
29 Cl* NGC 5904 SAW V42 RV* 15 18 24.7809796920 +02 02 53.243386584   12.8100 10.9300     F4 46 1
30 HD 148293 * 16 21 48.7107861744 +69 06 33.814560060   6.376 5.264     K2III 78 0
31 2MASS J18033785-3009200 * 18 03 37.8502310976 -30 09 20.177815284           ~ 6 0
32 HD 172365 * 18 39 36.8773335936 +05 15 51.448369824 6.92 7.15 6.40     F8II 129 0
33 HD 172481 pA* 18 41 36.9595215744 -27 57 01.235714652   9.58 9.06     F2/3Ia 49 0
34 HD 174104 * 18 47 44.1608642616 +28 43 12.505843956   9.06 8.37     G0Ib 34 0
35 UCAC4 684-065062 RG* 19 08 36.1588752720 +46 41 21.253098480   13.228 12.216 12.051   ~ 40 0
36 2MASS J19230934+0123293 * 19 23 09.3474224496 +01 23 29.355808488           ~ 5 0
37 2MASS J19242474+0044104 * 19 24 24.7358807880 +00 44 10.505183208           ~ 6 0
38 2MASS J19252571+0031444 * 19 25 25.7182608720 +00 31 44.429503224           ~ 5 0
39 2MASS J19252758+0153064 * 19 25 27.5857124136 +01 53 06.560715084           ~ 11 0
40 2MASS J19252837+0027037 * 19 25 28.3701353184 +00 27 03.736574784           ~ 5 0
41 2MASS J19253819+0031094 * 19 25 38.2012381200 +00 31 09.446194092           ~ 5 0
42 2MASS J19261008-0010202 * 19 26 10.0898821104 -00 10 20.191437588           ~ 4 0
43 CoRoT 101137056 V* 19 26 40.3802341104 -00 19 57.655115292     15.371 15.022   ~ 6 0
44 HD 183492 PM* 19 29 22.1540342928 +14 35 45.669109020   6.618 5.564     K0III 63 0
45 CoRoT 101657424 EB* 19 30 18.8348917008 -00 04 17.653071720   16.584 14.891 14.459 13.145 ~ 8 0
46 NGC 6802 OpC 19 30 36.2 +20 15 43   10.07 8.8     ~ 104 0
47 2MASS J19304281+2016107 * 19 30 42.8174169120 +20 16 10.677311472           ~ 7 0
48 NGC 6819 OpC 19 41 18.5 +40 11 24   8.21 7.3     ~ 635 0
49 V* BI Ind RS* 23 13 52.7842528944 -68 17 28.814107128   8.89 7.67     K2IIIp 43 0
50 NGC 7789 301 * 23 56 52.2278331240 +56 33 38.840428440   13.61 12.2728   10.734 ~ 21 0
51 NGC 7789 308 * 23 56 52.9864594896 +56 39 09.436037616   14.14 13.5115   12.642 ~ 10 0
52 NGC 7789 1238 * 23 58 31.4301654216 +56 46 23.570858424   14.34 13.54     ~ 9 0
53 NGC 7789 268 * ~ ~   14.31 13.64     ~ 3 0
54 NGC 7789 443 * ~ ~   14.41 13.55     ~ 3 0

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