2020A&A...639A..81B

Query : 2020A&A...639A..81B

2020A&A...639A..81B - Astronomy and Astrophysics, volume 639A, 81-81 (2020/7-1)

Variability of OB stars from TESS southern Sectors 1-13 and high-resolution IACOB and OWN spectroscopy.

BURSSENS S., SIMON-DIAZ S., BOWMAN D.M., HOLGADO G., MICHIELSEN M., DE BURGOS A., CASTRO N., BARBA R.H. and AERTS C.

Abstract (from CDS):

Context. The lack of high-precision long-term continuous photometric data for large samples of stars has impeded the large-scale exploration of pulsational variability in the OB star regime. As a result, the candidates for in-depth asteroseismic modelling have remained limited to a few dozen dwarfs. The TESS nominal space mission has surveyed the southern sky, including parts of the galactic plane, yielding continuous data across at least 27d for hundreds of OB stars.
Aims. We aim to couple TESS data in the southern sky with ground-based spectroscopy to study the variability in two dimensions, mass and evolution. We focus mainly on the presence of coherent pulsation modes that may or may not be present in the predicted theoretical instability domains and unravel all frequency behaviour in the amplitude spectra of the TESS data.
Methods. We compose a sample of 98 OB-type stars observed by TESS in Sectors 1-13 and with available multi-epoch, high-resolution spectroscopy gathered by the IACOB and OWN surveys. We present the short-cadence 2 min light curves of dozens of OB-type stars, which have one or more spectra in the IACOB or OWN database. Based on these light curves and their Lomb-Scargle periodograms, we performed variability classification and frequency analysis. We placed the stars in the spectroscopic Hertzsprung-Russell diagram to interpret the variability in an evolutionary context.
Results. We deduce the diverse origins of the mmag-level variability found in all of the 98 OB stars in the TESS data. We find among the sample several new variable stars, including three hybrid pulsators, three eclipsing binaries, high frequency modes in a Be star, and potential heat-driven pulsations in two Oe stars.
Conclusions. We identify stars for which future asteroseismic modelling is possible, provided mode identification is achieved. By comparing the position of the variables to theoretical instability strips, we discuss the current shortcomings in non-adiabatic pulsation theory and the distribution of pulsators in the upper Hertzsprung-Russell diagram.

Abstract Copyright: © ESO 2020

Journal keyword(s): techniques: photometric - techniques: spectroscopic - stars: massive - stars: oscillations

VizieR on-line data: <Available at CDS (J/A+A/639/A81): table2.dat tablea1.dat tablea2.dat>

Simbad objects: 115

Full paper

View the references in ADS

Number of rows : 115

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	* zet Scl	SB*	00 02 19.9270625208	-29 43 13.588516668	4.29	4.879	5.022			B5IV	132	0
2	* kap Cas	s*b	00 32 59.9911963	+62 55 54.417374	3.50	4.30	4.16	4.02	3.96	B1Ia	461	0
3	* del Cet	bC*	02 39 28.95579	+00 19 42.6345	2.97	3.85	4.07			B2IV	379	0
4	* u Tau	SB*	03 45 40.4430080459	+06 02 59.988283002		5.225	5.337			B3V	130	0
5	* mu. Tau	*	04 15 32.0568707393	+08 53 32.491567629	3.74	4.205	4.279			B3IV	147	0
6	* d Eri	*	04 20 42.8341039320	-07 35 32.985711240	5.23	5.710	5.838			B7II	70	0
7	* lam Lep	*	05 19 34.5240485	-13 10 36.440791	3.03	4.04	4.29	4.41	4.69	B0.5V	297	0
8	* gam Ori	V*	05 25 07.86325	+06 20 58.9318	0.54	1.42	1.64	1.73	1.95	B2V	518	1
9	HD 35912	*	05 28 01.4701489584	+01 17 53.700185940	5.52	6.212	6.380			B2V	143	0
10	* ups Ori	SB*	05 31 55.8601879	-07 18 05.537157	3.30	4.36	4.63	4.75	5.01	O9.7V	402	0
11	* del Ori	SB*	05 32 00.40009	-00 17 56.7424	0.96	2.02	2.41	2.32	2.54	O9.5IINwk	768	0
12	HD 36959	Y*O	05 35 01.0070120496	-06 00 33.366713364	4.52	5.33	5.53			B1V	205	0
13	HD 36960	*	05 35 02.6807398	-06 00 07.303539	3.52	4.50	4.72			B0.5V	262	0
14	* lam Ori A	Em*	05 35 08.2760807112	+09 56 02.991326316	2.17	3.48	3.47			O8III((f))	502	0
15	* tet01 Ori B	EB*	05 35 16.1339860056	-05 23 06.784444248	7.71	8.20	7.96			B1V	363	2
16	* tet01 Ori C	SB*	05 35 16.4662967280	-05 23 22.921811880	4.20	5.15	5.13	4.91	4.73	O7Vp	1376	1
17	NAME Ori Trapezium	OpC	05 35 16.5	-05 23 14						~	1583	1
18	M 42	OpC	05 35 17	-05 23.4						~	3999	0
19	* tet02 Ori A	SB*	05 35 22.9012398264	-05 24 57.832632108	5.37	6.30	6.39	6.30	6.35	O9.5IVp	533	0
20	* c Ori	Y*O	05 35 23.16427	-04 50 18.0881	3.46	4.40	4.59	4.67	4.85	B1V+?	212	0
21	* iot Ori	SB*	05 35 25.9819073	-05 54 35.643537	1.45	2.53	2.77			O9IIIvar	765	0
22	* tet02 Ori B	Y*O	05 35 26.4007537560	-05 25 00.793767576	5.36	6.29	6.38	6.29	11.050	B0.7V	191	0
23	HD 37061	Or*	05 35 31.3649044920	-05 16 02.582064192	6.44	7.09	6.83			O9.5V	352	0
24	* eps Ori	s*b	05 36 12.81335	-01 12 06.9089	0.48	1.51	1.69	1.76	1.93	B0Ia	890	0
25	HD 37209A	*	05 36 35.6933463600	-06 03 53.102455123	4.61	5.535	5.750			B2IV	132	0
26	HD 37303	V*	05 37 27.3575332104	-05 56 18.204499212	4.93	5.817	6.024			B2V(n)	122	0
27	HD 37481	*	05 38 37.9735682376	-06 34 26.246963640	4.82	5.73	5.96			B1.5IV	125	0
28	* sig Ori	Y*O	05 38 44.7653828520	-02 36 00.283179888	2.54	3.58	3.79	3.87	4.11	O9.5V+B0.2V(n)	785	0
29	* sig Ori E	Y*O	05 38 47.2050040320	-02 35 40.521424812	5.66	6.38	6.46	6.84	7.08	B2IV-Vp_He	447	0
30	* zet Ori A	SB*	05 40 45.527143	-01 56 33.26036		1.79	1.90			O9.2IbvarNwk	661	0
31	* 126 Tau	**	05 41 17.7176759	+16 32 02.925299	4.1	4.709	4.836			B3IV	163	0
32	* mu. Col	V*	05 45 59.8950238944	-32 18 23.162261796	3.84	4.90	5.18	5.30	5.57	O9.5V	488	0
33	* kap Ori	s*b	05 47 45.3888404	-09 40 10.577707	0.87	1.88	2.06	2.09	2.27	B0.5Ia	566	0
34	HD 39680	Be*	05 54 44.7315378936	+13 51 17.064365364	7.05	8.01	7.99			O6V:[n]pevar	121	0
35	HD 39985	*	05 56 28.0340301432	+09 30 33.815113416		5.917	5.964			B9Ib	45	0
36	* mu. Ori	SB*	06 02 22.99668	+09 38 50.1820	4.40	4.29	4.130	3.94	3.86	A1Vm+F2V	262	0
37	* nu. Ori	SB*	06 07 34.3258759	+14 46 06.506096	3.6	4.240	4.397			B3IV	229	0
38	HD 41997	*	06 08 55.8226126488	+15 42 18.192106044	8.16	9.47	9.13	8.83		O7.5Vn((f))	95	0
39	HD 43112	*	06 15 08.4727512648	+13 51 03.959285616	4.7	5.676	5.894			B1V	116	0
40	* bet CMa	bC*	06 22 41.9853527	-17 57 21.307352	0.77	1.73	1.97	2.11	2.35	B1II-III	709	0
41	HD 45314	Be*	06 27 15.7784072112	+14 53 21.212913660	5.91	6.79	6.64			O9:npe	172	0
42	HD 46056	Y*O	06 31 20.8608343776	+04 50 03.842554740	7.60	8.36	8.16	8.16	8.09	O8Vn	222	0
43	NAME Rosette OB Association	As*	06 31.7	+04 58						~	142	0
44	* ksi01 CMa	bC*	06 31 51.3663578	-23 25 06.318090	3.10	4.09	4.33	4.45	4.72	B0.7IV	315	0
45	HD 46150	Y*O	06 31 55.5205071744	+04 56 34.296516096	6.03	6.86	6.73	6.50	6.41	O5V((f))z	392	0
46	HD 46223	Y*O	06 32 09.3068103600	+04 49 24.705695568	6.73	7.50	7.28	6.95	6.79	O4V((f))	374	0
47	HD 46485	Y*O	06 33 50.9566745256	+04 31 31.613196504	7.92	8.60	8.27		8.10	O7V((f))nzvar?	144	0
48	HD 46573	SB*	06 34 23.5692982800	+02 32 02.944339980	7.61	8.27	7.93			O7V((f))z	128	0
49	HD 46769	*	06 35 15.8285310432	+00 53 24.785166300	5.43	5.84	5.86	5.78	5.81	B7Ib-II	87	0
50	HD 47129	SB*	06 37 24.0420854544	+06 08 07.369104444	5.23	6.11	6.06			O8I+O7.5III	388	0
51	* 15 Mon	Be*	06 40 58.65963	+09 53 44.7229	3.360	4.45	4.68		4.88	O7V+B1.5/2V	790	0
52	BD+10 1222	Y*O	06 41 00.0335922720	+09 52 17.871188556	9.42	9.82	9.88	9.932	9.929	A1V	41	0
53	HD 261938	Y*O	06 41 01.8776061384	+09 52 48.041278176	8.32	8.90	8.97	9.067	9.084	B3V	40	0
54	HD 261937	Y*O	06 41 04.5662393952	+09 54 43.857027144	10.918	10.71	10.36	10.115	9.857	kA2hA2mA5V	51	0
55	HD 48099	Be*	06 41 59.2308626256	+06 20 43.532571372	5.38	6.32	6.37	6.30	6.35	O5V((f))z+O9:V	290	0
56	HD 48279	**	06 42 40.54719	+01 42 58.2571	7.26	8.03	7.86			O8V+F2V	147	0
57	HD 48434	*	06 43 38.6456583720	+03 55 57.109225980	4.99	5.88	5.90			B0II	154	0
58	* 16 Mon	SB*	06 46 32.4145190352	+08 35 13.767386136		5.76	5.92			B3V	94	0
59	* 15 CMa	bC*	06 53 32.9071871	-20 13 27.317715	3.66	4.62	4.83	4.95	5.17	B1Ib	205	0
60	* iot CMa	s*b	06 56 08.2245944314	-17 03 15.259069948	3.62	4.297	4.385	6.40		B3Ib	170	0
61	* eps CMa	*	06 58 37.54876	-28 58 19.5102	0.36	1.29	1.50	1.59	1.80	B1.5II	483	0
62	* omi02 CMa	s*b	07 03 01.4721150	-23 49 59.852308	2.14	2.94	3.02	3.01	3.10	B3Ia	317	0
63	* gam CMa	*	07 03 45.4930485	-15 37 59.829971	3.52	4.00	4.12	4.13	4.23	B8II	180	0
64	HD 53975	SB*	07 06 35.9651934840	-12 23 38.220633600	5.38	6.40	6.50	6.51		O7.5Vz	192	0
65	HD 54662	SB*	07 09 20.2493151288	-10 20 47.635088964	5.35	6.24	6.21	7.23		O6.5Vz(n)+O7.5Vz	338	2
66	HD 54764	Pu*	07 09 33.3632699976	-16 14 04.233013116	5.320	6.120	6.080	7.42		B1Ib/II	78	0
67	HD 54879	SB*	07 10 08.1487629504	-11 48 09.838940004	6.8	7.60	7.65			O9.7V	82	0
68	HD 55879	*	07 14 28.2529558464	-10 18 58.483822572	4.88	5.85	6.03	7.35		O9.7III	165	0
69	* 29 CMa	SB*	07 18 40.3789353696	-24 33 31.318248528	3.80	4.80	4.95	4.95	5.08	O7Iafpvar	413	0
70	* tau CMa	SB*	07 18 42.4864191	-24 57 15.741299	3.26	4.25	4.40	4.44	4.62	O9II	418	0
71	HD 57236	SB*	07 19 30.1024120872	-22 00 17.279067852	8.21	8.90	8.80	9.41		O8.5V	61	1
72	HD 57539	Be*	07 21 34.6302037320	-05 53 49.900090668		6.473	6.585			B3IV	44	0
73	HD 57682	*	07 22 02.0546074728	-08 58 45.766323408	5.20	6.24	6.43			O9.2IV	250	0
74	HD 58978	Be*	07 26 59.4826856664	-23 05 09.689679528	4.51	5.45	5.56	7.05		B0.5IVe	227	0
75	V* PT Pup	bC*	07 36 41.0352383592	-19 42 08.425020168	4.65	5.524	5.699			B2II	144	0
76	V* V390 Pup	SB*	07 44 34.1696593944	-24 40 26.686528896		5.43	5.60			B2II	73	0
77	* zet Pup	BY*	08 03 35.04754	-40 00 11.3321	0.89	1.98	2.25	2.36	2.58	O4I(n)fp	1144	1
78	HD 74920	*	08 45 10.3405991688	-46 02 19.239667872	6.64	9.46	9.09	8.58		O7.5IVn((f))	67	0
79	HD 75759	SB*	08 50 21.0167636904	-42 05 23.247034188	4.95	5.90	6.00	7.18		O9V+B0V	136	0
80	HD 76556	*	08 55 07.1436167808	-47 36 27.161751528	8.03	8.61	8.20	8.90		O6IV(n)((f))p	74	1
81	CD-47 4551	s*b	08 57 54.6180604176	-47 44 15.708893424	9.11	9.41	8.54	8.92		O5Ifc	73	0
82	HD 90273	*	10 23 44.4543211632	-57 38 31.534939032	8.35	9.25	9.05	9.58		ON7V((f))	78	0
83	HD 93843	Er*	10 48 37.7715351864	-60 13 25.518487656	6.37	7.29	7.33	8.23		O5III(fc)	169	0
84	HD 303492	Em*	10 51 52.7493254280	-58 58 35.267527560	9.00	9.45	8.85	9.40		O8.5Iaf	58	0
85	HD 96715	*	11 07 32.8167251952	-59 57 48.704400540	7.51	8.32	8.28	9.04		O4V((f))z	113	0
86	HD 97253	SB*	11 10 42.0464340864	-60 23 04.115936364	6.42	7.24	7.09	8.08		O5III(f)	85	0
87	HD 101191	SB*	11 38 12.1672877688	-63 23 26.799724320	7.69	9.32	9.36	9.29		O8V	79	0
88	HD 101205	EB*	11 38 20.36114	-63 22 21.8889	5.64	6.53	6.54	7.41		B7/8Ib	158	0
89	HD 110360	SB*	12 42 12.7021597968	-60 39 08.707043484	8.69	9.79	9.58	9.77		ON7V	54	0
90	HD 112244	s*b	12 55 57.1336250856	-56 50 08.900570292	4.49	5.33	5.32	5.21	5.21	O8.5Iab(f)p	206	0
91	HD 123056	SB*	14 07 25.6396562448	-60 28 14.155719348	7.54	8.28	8.14	9.00		O9.5IV(n)	59	0
92	HD 135591	*	15 18 49.1432685384	-60 29 46.795963020	4.46	5.36	5.46	6.91		O8IV((f))	157	0
93	* zet Oph	Be*	16 37 09.5390545	-10 34 01.529471	1.73	2.58	2.56	2.46	2.50	O9.2IVnn	1820	2
94	HD 150574	*	16 44 07.2107267688	-46 08 29.843325168	8.01	8.74	8.50	9.30		ON9III(n)	63	0
95	HD 151804	s*b	16 51 33.7218052272	-41 13 49.919519496	4.45	5.29	5.22			O8Iaf	370	0
96	HD 152003	s*b	16 52 47.3744351712	-41 47 08.990966004	6.90	7.47	7.08	6.72	6.35	O9.7IabNwk	118	1
97	HD 152147	SB*	16 53 28.6179497064	-42 07 17.050155420	7.20	7.76	7.34	6.97	6.60	O9.7IbNwk	104	0
98	HD 152234	s*b	16 54 01.8374467	-41 48 23.007764	4.92	5.64	5.45			B0.5Ia	192	0
99	HD 152233	SB*	16 54 03.5909222280	-41 47 29.841281484	5.93	6.72	6.59			O6II(f)	190	0
100	CD-41 11027A	Y*?	16 54 06.7182176904	-41 51 06.979097448	8.108	8.848	8.720		8.439	O9.7V	31	0
101	CD-41 11027B	Y*?	16 54 06.8315169048	-41 51 01.370381580	9.412	10.049	9.898		9.600	~	9	0
102	HD 152247	SB*	16 54 11.5173615984	-41 38 30.967835208	6.62	7.35	7.16	8.09		O9.2III	127	0
103	HD 152249	s*b	16 54 11.6395658856	-41 50 57.295111524	5.91	6.65	6.45			OC9Iab	232	0
104	CD-41 11037	SB*	16 54 13.2253067352	-41 50 32.518100184	7.21	8.08	7.90			O9IV	74	0
105	HD 326331	**	16 54 25.9691286216	-41 49 55.768191852	6.886	7.678	7.497		7.143	O8IVn((f))	76	0
106	HD 152424	s*b	16 55 03.3294878112	-42 05 26.990821824	6.11	6.69	6.27	7.49		OC9.2Ia	195	0
107	V* V1297 Sco	SB*	16 56 05.2157203176	-40 20 57.576260184	7.87	9.11	9.29	9.29		O7.5Vz	131	0
108	HD 154368	s*b	17 06 28.3687759224	-35 27 03.760593156	6.10	6.63	6.13	7.12		O9.5Iab	288	0
109	HD 154643	SB*	17 08 13.9817547216	-35 00 15.671611152	6.76	7.42	7.20	8.23		O9.7III	52	1
110	HD 155913	*	17 16 26.3328574536	-42 40 04.122580080	8.2	8.81	8.34	9.05		O4.5Vn((f))	50	0
111	HD 156154	V*	17 17 27.0092259048	-35 32 12.001357572	8.19	8.64	8.04	8.94		O7.5Ib(f)	73	0
112	HD 156738	*	17 20 52.6582094016	-36 04 20.565752484	10.06	10.27	9.35	9.65		O6.5III(f)	71	0
113	HD 159176	SB*	17 34 42.4921337376	-32 34 53.995451196	4.88	5.74	5.70	7.19		O7V((f))+O7V((f))	250	0
114	HD 188209	s*b	19 51 59.0687638680	+47 01 38.419078944	4.61	5.55	5.63	5.54	5.64	O9.5Iab	303	0
115	* bet Cep	bC*	21 28 39.5968513	+70 33 38.574681	2.05	3.01	3.23	3.33	3.55	B0.5IIIs	717	0

To bookmark this query, right click on this link: simbad:objects in 2020A&A...639A..81B and select 'bookmark this link' or equivalent in the popup menu