2017MNRAS.468.3533E

Query : 2017MNRAS.468.3533E

2017MNRAS.468.3533E - Mon. Not. R. Astron. Soc., 468, 3533-3556 (2017/July-1)

Models for 60 double-lined binaries containing giants.

EGGLETON P.P. and YAKUT K.

Abstract (from CDS):

The observed masses, radii and temperatures of 60 medium- to long-period binaries, most of which contain a cool, evolved star and a hotter less evolved one, are compared with theoretical models which include (a) core convective overshooting, (b) mass-loss, possibly driven by dynamo action as in RS CVn binaries, and (c) tidal friction, including its effect on orbital period through magnetic braking. A reasonable fit is found in about 42 cases, but in 11 other cases the primaries appear to have lost either more mass or less mass than the models predict, and in 4 others the orbit is predicted to be either more or less circular than observed. Of the remaining three systems, two (γ Per and HR 8242) have a markedly 'overevolved' secondary, our explanation being that the primary component is the merged remnant of a former short-period sub-binary in a former triple system. The last system (V695 Cyg) defies any agreement at present. Mention is also made of three other systems (V643 Ori, OW Gem and V453 Cep), which are relevant to our discussion.

Journal keyword(s): stars: activity - stars: AGB and post-AGB - binaries: close - binaries: general - stars: evolution - stars: horizontal branch - stars: horizontal branch

Simbad objects: 73

Full paper

View the references in ADS

Number of rows : 73

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	OGLE SMC130.5 4296	EB*	00 33 47.9299552248	-73 04 28.056762084	18.39	18.09	16.99		15.55	~	14	0
2	OGLE J004402.68-725422.5	EB*	00 44 02.6740281360	-72 54 22.960574820	18.63	17.85	16.65		15.45	~	15	0
3	HD 4615	SB*	00 48 41.1028090536	+52 06 02.924122356		7.70	6.85			F8	27	0
4	NAME SMC	G	00 52 38.0	-72 48 01		2.79	2.2			~	11149	1
5	* eta And	SB*	00 57 12.4002792266	+23 25 03.540083245	6.05	5.36	4.42	3.69	3.21	G8-III	189	0
6	OGLE SMC-SC8 201484	EB*	01 00 18.0420727800	-72 24 07.781696460		16.07	15.21	14.69	14.21	~	17	0
7	V* BE Psc	RS*	01 04 07.1523466848	+26 35 13.295844528					7.030	G5V	41	0
8	CD-80 28	SB*	01 05 38.2158877272	-80 03 40.694700276		10.98	10.25			K2	15	0
9	V* AI Phe	SB*	01 09 34.1924055096	-46 15 56.071719360		9.26	8.60			G3V	147	0
10	* tau Per	EB*	02 54 15.4777208304	+52 45 44.882735292	5.17	4.71	3.96	3.33	2.89	G8III+A7V	166	0
11	* gam Per	EB*	03 04 47.8201112829	+53 30 23.262605954	4.08	3.63	2.93	2.34	1.89	G9III+A2-III:	212	0
12	* bet Per	EB*	03 08 10.1324535	+40 57 20.328013	1.70	2.07	2.12	2.08	2.11	B8V	1219	1
13	V* TZ For	SB*	03 14 40.0925678952	-35 33 27.594929088		7.620	6.878			F7III+G8III	133	0
14	HD 23089	**	03 46 02.3314926384	+63 20 42.211540464		5.559	4.810			G2Ib/II+B7III/IV	85	0
15	V* RZ Eri	RS*	04 43 45.8302005168	-10 40 56.016683040		8.530	7.88			kF1hF5mF5IVEuSrBa	177	0
16	OGLE LMC-ECL-1866	EB*	04 52 15.2769484488	-68 19 10.222622148			15.986	15.453	15.010	~	20	0
17	OGLE LMC-CEP-227	cC*	04 52 15.6979950672	-70 14 31.242378408			15.317		14.438	~	57	0
18	OGLE LMC-ECL-3160	LP*	04 55 51.4783969128	-69 13 47.925605388			16.83	15.978	15.869	~	25	0
19	* zet Aur	EB*	05 02 28.6873880	+41 04 33.019985	5.35	4.97	3.75	2.62	1.75	K5II+B7V	453	0
20	2MASS J05043288-6920509	LP*	05 04 32.8759490616	-69 20 51.030442032			15.62	14.736	14.659	~	23	0
21	OGLE J051019.64-685812.3	EB*	05 10 19.65	-68 58 12.0			16.673		15.715	~	30	0
22	2MASS J05114945-6705451	LP*	05 11 49.4660106384	-67 05 45.128063004			16.21	15.70	15.130	~	20	0
23	2MASS J05140190-6841184	LP*	05 14 01.908	-68 41 18.41			16.58	16.04	15.377	~	20	0
24	2MASS J05140595-6915568	LP*	05 14 05.9513254032	-69 15 56.782018224			16.56	15.639		~	21	1
25	* alf Aur	SB*	05 16 41.35871	+45 59 52.7693	1.33	0.88	0.08	-0.52	-0.96	G3III:	1177	0
26	NAME LMC	G	05 23 34.6	-69 45 22			0.4			~	17434	0
27	2MASS J05252555-6933044	LP*	05 25 25.550	-69 33 04.49			17.01	16.40	15.620	~	25	0
28	* del Ori	SB*	05 32 00.40009	-00 17 56.7424	0.96	2.02	2.41	2.32	2.54	O9.5IINwk	779	0
29	M 42	HII	05 35 17	-05 23.4						~	4076	0
30	* iot Ori	SB*	05 35 25.9819073	-05 54 35.643537	1.45	2.53	2.77			O9IIIvar	773	0
31	HD 39286	*	05 52 23.4063709536	+19 52 04.250177472		6.518	5.985			K0IIb+B8IV	54	0
32	* 17 Lep	Sy*	06 04 59.1294521328	-16 29 03.969238632	5.29	5.17	4.93			A3+K/M	210	0
33	V* V643 Ori	EB*	06 07 00.9147371136	-02 54 57.789984636		10.70	9.40	9.55	8.48	G2	23	0
34	V* OW Gem	EB*	06 31 41.7717354768	+17 04 56.346406572		9.29	8.343	8.76		F2II	54	0
35	V* V415 Car	EB*	06 49 51.3137388874	-53 37 20.821466291		5.323	4.408			G4II	79	0
36	HD 68461	SB*	08 12 59.7308115504	+16 30 51.573394944		6.918	6.047			G8III	38	0
37	V* AL Vel	EB*	08 31 11.2833125832	-47 39 57.413103300		9.43	8.65			K0III+A3III/V	63	0
38	V* RU Cnc	RS*	08 37 30.1263809784	+23 33 41.641583472		10.80	10.20	10.019		G9V+F9V	126	0
39	* 45 Cnc	**	08 43 12.3294639552	+12 40 51.145063104	6.310	6.040	5.650			A3III:+G7III	51	0
40	* omi Leo	SB*	09 41 09.0321741326	+09 53 32.308426423	4.22	4.01	3.52	3.11	2.88	F8-G0III+A7m	153	0
41	* 93 Leo	RS*	11 47 59.13595	+20 13 08.1500		5.07	4.52			F8III+A6III	220	1
42	* o Leo	SB*	11 55 40.5327230688	+15 38 48.549860664		5.632	5.522			A3V	162	0
43	* 12 Com	SB*	12 22 30.3113907816	+25 50 46.167660348	5.56	5.30	4.81	4.34	4.01	F6III+A3V	188	0
44	V* V453 Cen	LP*	12 42 07.8743905224	-37 39 25.443915732						~	4	0
45	V* RS CVn	RS*	13 10 36.9077924448	+35 56 05.584994412	8.57	8.51	7.93	7.7		F6IV+G8IV	724	0
46	* 3 Boo	SB*	13 46 43.3233661056	+25 42 08.054927604		6.47	5.965			A7V:+G5III:	84	0
47	HD 144208	SB*	16 03 19.3643869944	+36 37 54.435536976		6.377	5.804			G6IIIa+A2.5IV	70	0
48	HD 145849	SB*	16 11 48.0553638168	+36 25 30.341129808		6.981	5.615			K3III	54	0
49	HD 157978	SB*	17 26 19.0063847712	+07 35 44.305905732	6.91	6.64	6.04	5.43	5.00	A1IVs+A2Vs+G0III	85	0
50	V* V1309 Sco	No*	17 57 32.9368332984	-30 43 09.965039880		16.9		14.8		~	261	0
51	ASAS J180057-2333.8	EB*	18 00 57.0682721568	-23 33 41.906822868		11.94	10.34			~	11	0
52	ASAS J182510-2435.5	EB*	18 25 10.0236615120	-24 35 24.123858468		12.02	10.87			~	7	0
53	V* V1980 Sgr	EB*	18 25 24.5199318864	-25 10 40.004098284		11.51	10.30			K5	12	0
54	HD 169689	EB*	18 25 38.7990783216	+08 01 55.225743564		6.545	5.665			G9II+B9V	105	0
55	* 113 Her	SB*	18 54 44.8849895400	+22 38 42.271489464	5.88	5.38	4.60	3.96	3.50	G8III+:+A0.5	94	0
56	TYC 3546-941-1	RG*	19 07 49.3734544464	+46 56 11.865353964		11.48	10.39			~	38	0
57	2MASS J19210141+4101049	EB*	19 21 01.4107302168	+41 01 04.925030484						K2III	27	0
58	KOI-7545	EB*	19 27 43.2200213736	+39 04 19.397485020						~	29	0
59	2MASS J19315429+4232516	RG*	19 31 54.2896822536	+42 32 51.641296872						~	35	0
60	* 9 Cyg	SB*	19 34 50.9283781560	+29 27 46.684035828		5.96	5.407			G8III+A2III:	98	0
61	V* SU Cyg	cC*	19 44 48.7341456312	+29 15 52.895535048	7.10	6.88	6.44	6.06	5.84	F2Iab:+B8.0V	299	0
62	* del Sge	SB*	19 47 23.2655973192	+18 32 03.528856248	6.20	5.12	3.81	2.37	1.08	M2II+B0V	202	0
63	V* V380 Cyg	EB*	19 50 37.3267754400	+40 35 59.135141652	4.86	5.613	5.680			B1.1III+B2.5/3V:	292	0
64	HD 187669	EB*	19 52 22.0878263112	-32 33 39.740568048		10.12	8.88			K0III	24	0
65	HD 190585	EB*	20 03 48.3209367264	+45 36 14.805207576		10.74	9.65			K2	42	0
66	HD 190361	SB*	20 03 51.8388825936	+21 03 01.522763748		8.53	7.27			K0	22	0
67	* 31 Cyg	EB*	20 13 37.9082370480	+46 44 28.761618048	5.50	5.08	3.80	2.83	2.07	K3Ib+B2IV-V	369	0
68	* omi02 Cyg	EB*	20 15 28.3242122880	+47 42 51.213932496	6.54	5.50	3.98	2.78	1.86	K7Ib-II+B1V	335	0
69	* 22 Vul	EB*	20 15 30.2386386720	+23 30 32.051069712		6.192	5.176			G3Ib-II	209	0
70	* alf Equ	SB*	21 15 49.4371672506	+05 14 52.411028661		4.446	3.933			G6IV+B9.5V	150	0
71	BD+51 3079	SB*	21 31 27.4695958320	+52 37 11.514326196		7.051	6.180			G2II+B9V	54	0
72	HD 208253	*	21 53 19.8137830742	+53 59 49.855109746	7.240	7.000	6.610			A2	22	0
73	HD 216572	EB*	22 52 45.7970990617	+60 54 58.613633699		8.10	7.57			G8III+B9V	35	0

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