2022A&A...659A...3S

Query : 2022A&A...659A...3S

2022A&A...659A...3S - Astronomy and Astrophysics, volume 659A, 3-3 (2022/3-1)

Extending the FIP bias sample to magnetically active stars. Challenging the FIP bias paradigm.

SELI B., OLAH K., KRISKOVICS L., KOVARI Z., VIDA K., BALAZS L.G., LAMING J.M., VAN DRIEL-GESZTELYI L. and BAKER D.

Abstract (from CDS):

Context. The different elemental abundances of the photosphere and the corona are striking features of not only the Sun, but of other stars as well. This phenomenon is known as the first ionisation potential (FIP) effect, and its strength can be characterized by the FIP bias, the logarithmic abundance difference between low- and high-FIP elements in the corona, compared to the photosphere. The FIP bias was shown to depend on the surface temperature of the star. Aims. We aim to extend the T_eff-FIP bias relationship to a larger stellar sample and analyse the effect of other astrophysical parameters on the relation (e.g. surface gravity, age, activity indicators). Methods. We compiled FIP bias and other parameters for 59 stars for which coronal composition is available, now including evolved stars. Using principal component analysis and linear discriminant analysis, we searched for correlations with other astrophysical parameters within the sample that may influence the stellar FIP bias. Results. Adding stars to the T_eff-FIP bias diagram unveiled new features in its structure. In addition to the previously known relationship, there appears to be a second branch: a parallel sequence about 0.5 dex above it. While the T_eff remains the main determinant of the FIP bias, other parameters such as stellar activity indicators also have influence. We find three clusters in the FIP bias determinant parameter space. One distinct group is formed by the evolved stars. Two groups contain main sequence stars in continuation separated roughly by the sign change of the FIP-bias value. Conclusions. The new branch of the T_eff-FIP bias diagram contains stars with higher activity level, in terms of X-ray flux and rotational velocity. The Rossby number also seems to be important, indicating possible dependence on the type of dynamo operating in these stars influencing their FIP bias. The two main-sequence clusters run from the earliest spectral types of A-F with shallow convection zones through G-K-early-M stars with gradually deeper convection zones, and they end with the fully convective M dwarf stars, depicting the change of the dynamo type with the internal differences of the main sequence stars in connection with the FIP-bias values.

Abstract Copyright: © ESO 2022

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

VizieR on-line data: <Available at CDS (J/A+A/659/A3): table2.dat tablea1.dat tablea2.dat>

Status at CDS : Objects in title, abstract, text, figures, and all or part of small table(s) being processed in SIMBAD.

Simbad objects: 70

Full paper

View the references in ADS

Number of rows : 70

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2023	#notes
1	* bet Cet	PM*	00 43 35.37090	-17 59 11.7827	3.90	3.02	2.01	1.29	0.78	G9.5IIICH-1	521	1
2	* zet And	RS*	00 47 20.3257188471	+24 16 01.842781713	6.05	5.18	4.06	3.21	2.62	K1III+KV	285	0
3	* 39 Cet	RS*	01 16 36.2879453688	-02 30 01.328624496		6.310	5.428			G6III:eFe-2	255	0
4	HD 8357	XB*	01 22 56.7568636416	+07 25 09.332224320	8.530	8.160		6.8		G5	168	0
5	* 47 Cas	**	02 05 07.4242273	+77 16 52.824198		5.590	5.268			F0V	119	1
6	* iot Hor	PM*	02 42 33.4666679022	-50 48 01.055138166		5.97	5.40			F8V	384	1
7	V* VY Ari	RS*	02 48 43.7287198695	+31 06 54.592461256		7.72		6.4		G9	223	0
8	* kap01 Cet	BY*	03 19 21.6964175772	+03 22 12.714979884	5.71	5.52	4.85	4.27	3.91	G5V	878	0
9	V* UX Ari	RS*	03 26 35.3756804760	+28 42 54.226408428	7.76	7.28	6.37			K0IV	689	0
10	* eps Eri	BY*	03 32 55.8444911587	-09 27 29.739493865	5.19	4.61	3.73	3.00	2.54	K2V	1885	1
11	HD 22468	RS*	03 36 47.2904292073	+00 35 15.943692002	7.09	6.79	5.90			K2:Vnk	1160	0
12	V* V471 Tau	EB*	03 50 24.9666549840	+17 14 47.430910716		10.258	9.373		8.393	K2V+DA	658	0
13	V* EI Eri	RS*	04 09 40.8923562192	-07 53 34.175993568		7.71	7.04			G3V	281	0
14	* pi.03 Ori	PM*	04 49 50.4109057	+06 57 40.588294	3.620	3.630	3.190	2.77	2.51	F6V	566	0
15	V* YY Men	Ro*	04 58 17.9369735112	-75 16 37.987856868		9.11	8.05			K1IIIp	125	0
16	* alf Aur	SB*	05 16 41.35871	+45 59 52.7693	1.33	0.88	0.08	-0.52	-0.96	G3III:	1169	0
17	V* AB Dor	TT*	05 28 44.8712165880	-65 26 55.199147208	8.259	7.856	6.999	6.496	5.993	K0V	1007	0
18	* bet Pic	PM*	05 47 17.0876901	-51 03 59.441135	4.13	4.03	3.86	3.74	3.58	A6V	1856	1
19	* chi01 Ori	RS*	05 54 22.9829893	+20 16 34.222038	5.08	5.00	4.40	3.90	3.59	G0V	846	0
20	* eta Lep	PM*	05 56 24.2934904501	-14 10 03.718335613	4.05	4.05	3.72	3.39	3.23	F2V	335	0
21	V* V1358 Ori	BY*	06 19 08.0574987312	-03 26 20.361237864		8.52	7.95			G0V	111	0
22	V* YY Gem	BY*	07 34 37.4474327544	+31 52 10.179641496	11.60	10.56	9.27	7.69	6.67	M0.5VeFe-2	848	0
23	* alf CMi	SB*	07 39 18.11950	+05 13 29.9552	0.82	0.79	0.37	-0.05	-0.28	F5IV-V+DQZ	1851	0
24	* sig Gem	RS*	07 43 18.7276907303	+28 53 00.631838445	6.38	5.41	4.29	3.37	2.79	K1IIIe	474	0
25	* pi.01 UMa	BY*	08 39 11.7046112880	+65 01 15.263122512	6.33	6.26	5.64	5.12	4.79	G0.5V	559	0
26	HD 79210	SB*	09 14 22.7748624830	+52 41 11.791503353		9.388		6.8		K7V	301	0
27	HD 79211	Er*	09 14 24.6828466599	+52 41 10.902471910		7.966		6.8		M0V	290	0
28	MCC 541	**	09 14 27.2	+52 41 18						~	25	0
29	* 11 LMi	RS*	09 35 39.5021937366	+35 48 36.477051175	6.560	6.110	5.340	4.79	4.42	G8Va	366	0
30	V* AD Leo	Er*	10 19 36.2808181226	+19 52 12.010446571		10.82	9.52	9.19		dM3	1296	1
31	* mu. Vel	**	10 46 46.17877	-49 25 12.9244	4.16	3.59	2.69	2.01	1.52	G6III	183	0
32	Wolf 359	Er*	10 56 28.9208702274	+07 00 53.003285286	16.706	15.541	13.507	11.684	9.507	dM6	701	0
33	* ksi UMa B	SB*	11 18 10.8360115405	+31 31 44.821690914		5.41	4.77	4.4		G2V	335	1
34	* ksi UMa	RS*	11 18 10.931880	+31 31 45.44004	4.42	4.38	3.79			F8.5:V+G2V	268	0
35	* 31 Com	Ro*	12 51 41.9201696640	+27 32 26.565016812	5.81	5.61	4.94	4.39	4.04	G0IIIp	428	1
36	* bet Com	PM*	13 11 52.3938268062	+27 52 41.462309460	4.92	4.84	4.25	3.77	3.47	F9.5V	894	0
37	V* FK Com	PM*	13 30 46.7996390256	+24 13 57.781233768		9.04	8.245		7.204	G4III	371	1
38	V* V851 Cen	RS*	13 44 00.9212469648	-61 21 59.173175844		8.74	7.798		6.638	K0III	85	0
39	* tau Boo	Ro*	13 47 15.7381720026	+17 27 24.809555600	5.02	4.98	4.49	4.09	3.85	F7IV-V	971	1
40	NAME Proxima Centauri	Er*	14 29 42.9461331854	-62 40 46.164680672	14.21	12.95	11.13	9.45	7.41	M5.5Ve	1242	0
41	V* EK Dra	BY*	14 39 00.2104038120	+64 17 29.979649860		8.243	7.604			G1.5V	434	0
42	* alf Cen B	PM*	14 39 35.06311	-60 50 15.0992	2.89	2.21	1.33			K1V	1005	2
43	* alf Cen A	SB*	14 39 36.49400	-60 50 02.3737	0.96	0.72	0.01			G2V	1258	1
44	* alf Cen	**	14 39 40.4	-60 50 20		0.4	-0.1			G2V+K1V	935	0
45	* ksi Boo B	PM*	14 51 23.0436810216	+19 06 06.887747916		7.981	6.816			K5Ve	356	0
46	* ksi Boo	BY*	14 51 23.37993	+19 06 01.6994	5.618	5.370	4.593	3.91	3.48	G7Ve+K5Ve	467	0
47	* ksi Boo A	PM*	14 51 23.3884659504	+19 06 01.619801424		5.40	4.675			G7Ve	525	0
48	* sig CrB A	SB*	16 14 40.8534439608	+33 51 31.011629868		6.14	5.55			F6V	50	1
49	* 36 Oph A	PM*	17 15 20.7836485323	-26 36 06.117207947		5.93	5.08			K2V	268	1
50	* 36 Oph B	PM*	17 15 20.9838262152	-26 36 10.173444860		5.88	5.03			K1V	239	1
51	* 36 Oph	**	17 15 20.9839376	-26 36 10.157115						K2V+K1V	133	0
52	* 70 Oph A	SB*	18 05 27.2484131991	+02 30 00.526614953				3.6		K0V	222	0
53	* 70 Oph	**	18 05 27.28518	+02 30 00.3558	5.40	4.89	4.03	3.38	2.92	K0-V	645	0
54	* 70 Oph B	PM*	18 05 27.4629361936	+02 29 56.209188639		7.26	6.07	5.6		K4V	116	0
55	HD 179949	BY*	19 15 33.2300695008	-24 10 45.671448072		6.772	6.237			F8V	398	1
56	* alf Aql	dS*	19 50 46.99855	+08 52 05.9563	1.07	0.98	0.76	0.62	0.49	A7Vn	870	1
57	V* AT Mic	Er*	20 41 51.15925	-32 26 06.8283	12.753	11.909	10.343	9.098	7.383	M4.5Ve+M4.5Ve	354	0
58	HD 197481	BY*	20 45 09.5324974119	-31 20 27.237889841		10.05	8.627	9.078	6.593	M1VeBa1	1099	0
59	* 61 Cyg A	BY*	21 06 53.9395895022	+38 44 57.902349973	7.50	6.39	5.21	4.19	3.54	K5V	1023	0
60	* 61 Cyg	**	21 06 53.95	+38 44 57.9						~	174	0
61	* 61 Cyg B	Er*	21 06 55.2638444466	+38 44 31.358519864	8.63	7.40	6.03	4.86	3.55	K7V	712	0
62	BD+22 4409	BY*	21 31 01.7140062576	+23 20 07.374015564		10.240	9.245	8.6	7.965	K3Vke	172	0
63	V* V374 Peg	Er*	22 01 13.1241989539	+28 18 24.907312662				11.602		M3.5Ve	215	0
64	V* AR Lac	RS*	22 08 40.8182089680	+45 44 32.107863120	7.09	6.83	6.11			K0IVe+G5IV	714	0
65	V* EV Lac	Er*	22 46 49.7312610268	+44 20 02.374381562		11.85	10.26	9.89		M4.0Ve	882	2
66	BD+19 5116A	Er*	23 31 52.1738511880	+19 56 14.130398245		12.27	10.173	9.946		M3.5Ve	96	0
67	BD+19 5116	**	23 31 52.17898	+19 56 14.1505	12.737	11.749	10.165	8.982	7.446	M4+M5	446	0
68	BD+19 5116B	Er*	23 31 52.5753377942	+19 56 14.005026315		14.8		12.165		M4.0Ve	199	0
69	* lam And	RS*	23 37 33.8427800830	+46 27 29.344721109	5.54	4.84	3.82	3.04	2.47	G8IVk	662	0
70	HD 224085	RS*	23 55 04.0520383542	+28 38 01.245426862	8.88	8.20		6.9		K2+IVeFe-1	723	0

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