2011A&A...535A..17B

Query : 2011A&A...535A..17B

2011A&A...535A..17B - Astronomy and Astrophysics, volume 535A, 17-17 (2011/11-1)

Bisectors of the HARPS cross-correlation function. The dependence on stellar atmospheric parameters.

BASTURK O., DALL T.H., COLLET R., LO CURTO G. and SELAM S.O.

Abstract (from CDS):

Bisectors of the HARPS cross-correlation function (CCF) can discern between planetary radial-velocity (RV) signals and spurious RV signals from stellar magnetic activity variations. However, little is known about the effects of the stellar atmosphere on CCF bisectors or how these effects vary with spectral type and luminosity class. Here we investigate the variations in the shapes of HARPS CCF bisectors across the HR diagram in order to relate these to the basic stellar parameters, surface gravity and temperature. We use archive spectra of 67 well studied stars observed with HARPS and extract mean CCF bisectors. We derive previously defined bisector measures (BIS, v_bot, c_b) and we define and derive a new measure called the CCF bisector span (CBS) from the minimum radius of curvature on direct fits to the CCF bisector. We show that the bisector measures correlate differently, and non-linearly with logg and T_eff. The resulting correlations allow for the estimation of logg and Teff from the bisector measures. We compare our results with 3D stellar atmosphere models and show that we can reproduce the shape of the CCF bisector for the Sun.

Abstract Copyright: ∼

Journal keyword(s): instrumentation: spectrographs - techniques: radial velocities - line: profiles - stars: atmospheres - stars: activity

Simbad objects: 66

Full paper

View the references in ADS

Number of rows : 66

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	HD 1461	PM*	00 18 41.8676757921	-08 03 10.803829898		7.14	6.46			G3VFe0.5	374	1
2	HD 4915	PM*	00 51 10.8478903584	-05 02 21.401155212	7.792	7.643	6.972	6.604	6.252	G5V	141	0
3	HD 7449	PM*	01 14 29.3222869752	-05 02 50.614788804		8.08	7.48			F9.5V	118	2
4	* tau Cet	PM*	01 44 04.0831371922	-15 56 14.927607677	4.43	4.22	3.50	2.88	2.41	G8V	1255	1
5	* lam02 For	PM*	02 36 58.6077493776	-34 34 40.711246464	6.67	6.45	5.79			G1V	213	1
6	* zet02 Ret	**	03 18 12.8188824117	-62 30 22.904711032		5.814	5.228			G1V	362	0
7	* e Eri	PM*	03 19 55.6509122226	-43 04 11.215188426	5.20	4.98	4.27	3.65	3.25	G6V	449	1
8	HD 21019	PM*	03 23 17.7011620632	-07 47 38.755366656		6.92	6.23			G5/6V	145	0
9	HD 21693	PM*	03 27 12.4815289824	-58 19 25.249845108		8.715	7.94	8.00	8.61	G9IV-V	77	1
10	* eps Eri	BY*	03 32 55.8444911587	-09 27 29.739493865	5.19	4.61	3.73	3.00	2.54	K2V	1932	1
11	* del Eri	PM*	03 43 14.9005379551	-09 45 48.210955899	5.13	4.46	3.54	2.82	2.32	K0+IV	598	0
12	* alf Hor	PM*	04 14 00.1142226166	-42 17 39.726755131	5.97	4.96	3.86	3.00	2.41	K2III	143	0
13	HD 38973	PM*	05 46 27.9903916200	-53 13 09.566491080		7.22	6.63			G0V	88	0
14	HD 38858	PM*	05 48 34.9402551240	-04 05 40.721787744	6.71	6.61	5.97			G2V	304	1
15	HD 40307	PM*	05 54 04.2405000288	-60 01 24.493007640	8.814	8.097	7.147	6.597	6.119	K2.5V	263	1
16	HD 50806	PM*	06 53 33.9425265992	-28 32 23.259823557		6.75	6.04			G5V	155	0
17	* 20 Mon	PM*	07 10 13.6815026472	-04 14 13.585055244	6.73	5.95	4.92	4.13	3.61	K0III	148	0
18	HD 59468	PM*	07 27 25.4642316432	-51 24 09.361548180	7.689	7.428	6.714	6.33	5.976	G6.5V	132	0
19	HD 60532	PM*	07 34 03.1805638968	-22 17 45.843172440	5.02	4.94	4.39			F6IV-V	223	1
20	* 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
21	* 140 Pup	*	07 40 23.2104428256	-15 15 50.110710444		6.503	4.951			K3III	55	0
22	* alf Mon	PM*	07 41 14.8319734511	-09 33 04.077766984	5.83	4.95	3.93	3.16	2.64	G9.5III-IIIbFe-0.5	201	0
23	* 27 Mon	PM*	07 59 44.1530631384	-03 40 46.508411136		6.137	4.934			K1III	84	0
24	HD 68978	PM*	08 13 34.4987570641	-31 44 07.381786853		7.36	6.75			G0.5V	95	0
25	HD 69830	PM*	08 18 23.9469682407	-12 37 55.817187530		6.74	5.95			G8:V	526	1
26	HD 72673	PM*	08 32 51.4956803280	-31 30 03.064960317		7.17	6.38			K1V	214	0
27	HD 73524	PM*	08 37 19.9928801266	-40 08 51.599735729	7.29	7.15	6.55			G0Vp	142	0
28	* zet Pyx	PM*	08 39 42.4740344784	-29 33 39.904538472		5.777	4.872			G6IIIbCN-0.5	57	0
29	* lam Pyx	PM*	09 23 12.2502975192	-28 50 01.900865148	6.22	5.59	4.68	3.97	3.50	G8.5IIIbFe-1	54	0
30	* alf Hya	*	09 27 35.24270	-08 39 30.9583	5.14	3.42	1.97	0.93	0.16	K3IIIa	434	1
31	HD 84117	PM*	09 42 14.4162029298	-23 54 56.042043626		5.47	4.94			F9V	204	0
32	HD 85512	PM*	09 51 07.0518026760	-43 30 10.023686079	9.963	8.83	7.651	6.934	6.319	K6Vk:	214	1
33	* ups01 Hya	*	09 51 28.6749789221	-14 50 47.863368049	5.68	5.03	4.11	3.42	2.95	G7III	156	0
34	HD 85859	PM*	09 54 12.3168100872	-25 55 56.388156312		6.11	4.88			K2+IIICN0.5	60	0
35	HD 90156	PM*	10 23 55.2740234040	-29 38 43.909986984	7.758	7.603	6.920	6.534	6.189	G5V	139	1
36	HD 96700	PM*	11 07 54.4268592192	-30 10 28.447221745		7.11	6.503	6.59	8.95	G1VFe-0.5	155	1
37	* del Crt	PM*	11 19 20.4473515372	-14 46 42.743409457	5.66	4.67	3.56	2.73	2.13	G9IIICH0.5	168	0
38	* ksi Hya	**	11 33 00.1149306166	-31 51 27.447975478	5.17	4.47	3.54	2.84	2.36	G7IIIb	257	0
39	HD 102365	PM*	11 46 31.0725331317	-40 30 01.285867174	5.65	5.55	4.88	4.35	3.97	G2V	331	1
40	HD 102438	PM*	11 47 15.8077477490	-30 17 11.440260481		7.16	6.48			G6V	156	0
41	* bet Vir	PM*	11 50 41.7185158616	+01 45 53.001539131	4.26	4.15	3.60	3.13	2.85	F9V	929	0
42	HD 114613	PM*	13 12 03.1842958709	-37 48 10.879928463	5.86	5.55	4.85	4.28	3.92	G3V	197	0
43	* 61 Vir	PM*	13 18 24.3139864471	-18 18 40.297748582	5.710	5.440	4.740			G6.5V	674	1
44	* gam Hya	SB*	13 18 55.2976891983	-23 10 17.450424894	4.58	3.92	3.00	2.40	1.93	G8IIIa	178	0
45	* pi. Hya	PM*	14 06 22.2980035207	-26 40 56.501676257	5.45	4.41	3.28	2.40	1.85	K2-IIIFe-0.5	139	0
46	* alf Cen B	PM*	14 39 35.06311	-60 50 15.0992	2.89	2.21	1.33			K1V	1024	2
47	* alf Cen A	SB*	14 39 36.49400	-60 50 02.3737	0.96	0.72	0.01			G2V	1280	1
48	* 11 Lib	PM*	14 51 01.0720205236	-02 17 56.941059804	6.64	5.92	4.94			K0III/IV	129	0
49	HD 134060	PM*	15 10 44.7430146168	-61 25 20.360681976		6.91	6.285	6.16	8.68	G0VFe+0.4	131	1
50	HD 134606	PM*	15 15 15.0446421648	-70 31 10.644909780		7.61	6.854	6.69	8.89	G6IV	92	1
51	* nu.02 Lup	PM*	15 21 48.1499105161	-48 19 03.469906910	6.35	6.30	5.65			G3/5V	294	1
52	HD 136713	PM*	15 22 36.6949853712	-10 39 40.055679252	9.766	8.932	7.942	7.402	6.949	K2V	92	0
53	HD 144585	PM*	16 07 03.3696573456	-14 04 16.671141984	7.22	6.98	6.32			G2V	191	0
54	* gam Aps	PM*	16 33 27.0825153352	-78 53 49.733407072		4.783	3.854			G8III	93	0
55	HD 154962	PM*	17 08 54.5197946472	-03 52 58.785698676		7.053	6.356			G8IV(+A)	78	0
56	* mu. Ara	PM*	17 44 08.7031414872	-51 50 02.591603160		5.85	5.15			G3IV-V	531	2
57	HD 162396	PM*	17 52 52.5830170920	-41 59 47.486766588		6.74	6.20			F9VFe-0.7CH-0.4	132	0
58	HD 171990	PM*	18 47 49.1318977536	-77 52 05.703216132		6.974	6.392			F8V	82	0
59	HD 176986	PM*	19 03 05.8729653768	-11 02 38.130757620		9.39	8.45			K2.5V	65	0
60	HD 179949	BY*	19 15 33.2300695008	-24 10 45.671448072		6.772	6.237			F8V	405	1
61	* del Pav	PM*	20 08 43.6088716052	-66 10 55.442769229	4.78	4.32	3.56	2.95	2.61	G8IV	390	0
62	HD 207129	PM*	21 48 15.7511634187	-47 18 13.017893348		6.18	5.58			G2V	328	0
63	* eps Ind	PM*	22 03 21.6536261624	-56 47 09.522795714		5.75	4.69			K5V	551	0
64	HD 210918	PM*	22 14 38.6528791223	-41 22 53.994495360	7.02	6.88	6.23			G2V	203	0
65	HD 215456	PM*	22 46 08.0342516928	-48 58 43.758224148		7.25	6.62	6.86	8.66	G0.5V	97	1
66	HD 221420	*	23 33 19.5789042168	-77 23 07.194545808		6.488	5.806			G2IV-V	115	0

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