2014MNRAS.443.1629S

Query : 2014MNRAS.443.1629S

2014MNRAS.443.1629S - Mon. Not. R. Astron. Soc., 443, 1629-1642 (2014/September-2)

Interferometry of chemically peculiar stars: theoretical predictions versus modern observing facilities.

SHULYAK D., PALADINI C., LI CAUSI G., PERRAUT K. and KOCHUKHOV O.

Abstract (from CDS):

By means of numerical experiments we explore the application of interferometry to the detection and characterization of abundance spots in chemically peculiar (CP) stars using the brightest star ε UMa as a case study. We find that the best spectral regions to search for spots and stellar rotation signatures are in the visual domain. The spots can clearly be detected already at a first visibility lobe and their signatures can be uniquely disentangled from that of rotation. The spots and rotation signatures can also be detected in near-infrared at low spectral resolution but baselines longer than 180 m are needed for all potential CP candidates. According to our simulations, an instrument like VEGA (or its successor e.g. Fibered and spectrally Resolved Interferometric Equipment New Design) should be able to detect, in the visual, the effect of spots and spots+rotation, provided that the instrument is able to measure V2 ~ 10^–3, and/or closure phase. In infrared, an instrument like AMBER but with longer baselines than the ones available so far would be able to measure rotation and spots. Our study provides necessary details about strategies of spot detections and the requirements for modern and planned interferometric facilities essential for CP star research.

Journal keyword(s): techniques: interferometric - stars: atmospheres - stars: chemically peculiar - stars: individual: ε UMa

VizieR on-line data: <Available at CDS (J/MNRAS/443/1629): table2.dat>

Simbad objects: 204

Full paper

View the references in ADS

Number of rows : 204

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	V* CG And	a2*	00 00 43.6344938328	+45 15 12.007059804		6.299	6.347			A0IIspSiSrHg	155	0
2	* alf And	a2*	00 08 23.25988	+29 05 25.5520	1.48	1.95	2.06	2.09	2.19	B8IV-VHgMn	462	0
3	HD 1048	*	00 14 55.8983946240	+22 17 03.212768184		6.235	6.234			A1p	50	0
4	V* GR And	a2*	00 28 28.5694460472	+32 26 15.875756412		6.99	6.91			A5VpSiSrCr	143	0
5	* ksi Phe	a2*	00 41 46.3972997520	-56 30 04.738422240		5.90	5.70			A3VpSrCr_Ksn	131	0
6	V* GO And	a2*	00 50 18.2653153128	+45 00 08.135537076	6.13	6.16	6.15			A3VpSiSrCrEuKsn	123	0
7	* alf Scl	Ro*	00 58 36.3593029	-29 21 26.824714	3.52	4.09	4.27	4.30	4.43	B7IIIp	249	0
8	V* HN And	a2*	01 24 18.6765786624	+43 08 31.629475248		6.704	6.676			A4VpSrSi	143	0
9	V* GY And	a2*	01 38 31.8255225672	+45 23 58.935650100		6.343	6.380			A2:VpSiSrCrEu	253	0
10	* 43 Cas	a2*	01 42 20.5269432072	+68 02 34.890489276	5.29	5.52	5.59			A0VpSiSrEuHgMn	117	0
11	V* UZ Psc	a2*	01 45 42.5323444416	+08 33 33.298063020	6.24	6.38	6.43			B8VpSi	128	0
12	HD 11187	*	01 51 26.6179346232	+54 55 28.849176732		8.20	7.94			A0p	64	0
13	* gam02 Ari	PM*	01 53 31.8129284424	+19 17 37.879979172		4.49	4.52			A2IVpSiSrCr	155	0
14	* phi Phe	SB*	01 54 22.0319152104	-42 29 48.942141036		5.055	5.109			A3V	114	0
15	* alf Psc A	*	02 02 02.8219762236	+02 45 49.579059841		4.06	4.11			kA0hA7Sr	178	0
16	HD 12288	a2*	02 03 30.5070540192	+69 34 56.268492384		7.83	7.74			A0pCrSi	105	0
17	* nu. For	a2*	02 04 29.4386071	-29 17 48.547752	4.01	4.52	4.69	4.73	4.87	B9.5IIIspSi	148	0
18	V* V436 And	a2*	02 21 02.6744002704	+42 56 38.228602596		7.24	7.27			B9pSrCrEu	67	0
19	HD 15144	a2*	02 26 00.3479612520	-15 20 28.495226652	6.06	5.97	5.83	5.71	5.67	A3VpSrCrEu	180	0
20	* iot Cas	a2*	02 29 03.94780	+67 24 08.9170						~	256	0
21	HD 17775	*	02 53 58.8930624672	+61 53 06.514517832		8.20	8.03			A0pCrEu	38	0
22	HD 18610	*	02 54 18.0034583328	-73 27 09.941734692		8.48	8.14			ApEuCrSr	38	0
23	* 21 Per	a2*	02 57 17.2817216760	+31 56 03.193498176		5.081	5.093			A2VspSiEu	196	0
24	V* EE Eri	a2*	03 10 18.0933103728	-01 41 40.967322324		7.32	7.35			B9V	65	0
25	* 56 Ari	a2*	03 12 14.2461137352	+27 15 25.085668788	5.22	5.64	5.76			B6IV-V	261	0
26	HD 19805	*	03 13 05.2560841728	+49 00 33.855831288		8.07	7.96			B9.5V	86	0
27	HD 21699	Ro*	03 32 08.6084197968	+48 01 24.528548676	4.81	5.355	5.461			B9III	205	0
28	* 20 Eri	a2*	03 36 17.4041095200	-17 28 01.472307996	4.61	5.10	5.23			B8/9III	174	0
29	* 9 Tau	a2*	03 36 58.0258965288	+23 12 39.846279780	6.960	6.840	6.730			A2p	105	0
30	V* KZ Cam	a2*	03 38 19.7334959304	+56 55 57.775389816	7.589	6.176	6.282			B9p	74	0
31	* 22 Eri	a2*	03 40 38.3331139440	-05 12 38.555731188	4.81	5.38	5.53			B9IIIpSi4200	127	0
32	HD 23207	PM*	03 42 44.5604785200	-18 42 49.677913800		7.79	7.54			ApSrEuCr	35	0
33	V* CT Hyi	a2*	03 45 23.7356758848	-71 39 29.274503652		6.137	6.255			ApSi	50	0
34	* 20 Tau	PM*	03 45 49.6065620	+24 22 03.886360	3.40	3.80	3.87	3.85	3.90	B8III	424	1
35	V* V766 Tau	a2*	03 51 15.8708072234	+13 02 45.875628119	5.88	6.32	6.38	6.36	6.39	B9pSi	100	0
36	V* DO Eri	a2*	03 55 16.1313315312	-12 05 56.727712752	6.35	6.32	6.00			A9VpSrEuCr	394	0
37	* tau09 Eri	a2*	03 59 55.4837679360	-24 00 58.377195468	4.11	4.52	4.66	4.64	4.77	ApSi	166	0
38	V* V380 Per	a2*	04 03 10.8521400600	+38 03 17.333232012	9.58	7.89	7.84			A0p	109	0
39	* 41 Tau	a2*	04 06 36.4125948768	+27 35 59.640149616		5.041	5.172			Ap	236	0
40	* 56 Tau	a2*	04 19 36.7048893816	+21 46 24.566827836		5.231	5.346			A0VpSi	185	0
41	HD 28843	Ro*	04 32 37.5537339576	-03 12 34.344832032	5.13	5.67	5.81			B9III	132	0
42	HD 30466	a2*	04 49 16.0090073472	+29 34 16.841140824		7.34	7.28			B9pSiCr	88	0
43	V* HZ Aur	a2*	05 06 08.3584818960	+33 55 07.279039380		7.03	7.07			B9p	185	0
44	* 66 Eri	a2*	05 06 45.6527881872	-04 39 18.601025148	4.89	5.06	5.12			B9V	150	1
45	* mu. Lep	a2*	05 12 55.9029641016	-16 12 19.668599100	2.78	3.18	3.29	3.30	3.42	B9IV:HgMn	274	1
46	* 17 Aur	EB*	05 18 18.8960529504	+33 46 02.516925540		6.102	6.144			B9V+B9.5V	299	0
47	V* IQ Aur	a2*	05 19 00.0284573784	+33 44 54.220806888		5.201	5.371			A0p	287	0
48	HD 34797	a2*	05 19 18.3112191840	-18 30 34.391115684	6.02	6.43	6.54			B7Vp	100	0
49	V* V901 Ori	Ro*	05 40 56.3704617744	-01 30 25.856677224	5.96	6.82	6.96			B2V	328	2
50	V* V1054 Ori	a2*	05 48 25.5041382456	-00 45 34.610849136		7.69				ApSrEuCr	63	0
51	* 137 Tau	a2*	05 52 22.2914333688	+14 10 18.428386584		5.532	5.586			A0VpSiSrCr	105	0
52	* tet Aur	a2*	05 59 43.27012	+37 12 45.3047	2.36	2.54	2.62	2.62	2.68	A0VpSi	281	0
53	V* UV Lep	a2*	06 11 21.7521470568	-15 47 35.016189504		7.01	6.75			ApSrCrEu	62	0
54	V* QR Aur	a2*	06 13 43.1520004512	+41 41 50.098548336		7.25	7.17			A2p	72	0
55	* 12 CMa	a2*	06 47 01.4835271104	-21 00 55.451696472	5.27	5.89	6.08			B7II/III	142	0
56	V* V592 Mon	a2*	06 50 42.3030217728	-08 02 27.587802588	6.31	6.29	6.29			B9V	112	0
57	HD 50773	*	06 54 37.0341189984	-00 27 09.480491892		9.50	9.36			ApSr	24	0
58	V* V386 Car	a2*	07 04 18.3094021056	-56 44 58.928100288		5.13	5.17			ApSi	114	0
59	* 26 CMa	Pu*	07 12 12.2147085456	-25 56 33.316082736	5.03	5.736	5.897			B2IV/V	83	0
60	* E Pup	SB*	07 12 15.8070021456	-40 29 55.755380940		5.38	5.31			A1/2V:+ApSrEu	103	0
61	V* V387 Car	a2*	07 13 39.8753760240	-53 40 04.131228252		6.62	6.69			ApEuCrSr	36	0
62	V* V409 Car	a2*	07 30 56.9886639144	-57 59 28.238685684		9.13	8.89			ApSr(Eu)	124	0
63	* 49 Cam	a2*	07 46 27.4146675768	+62 49 49.882910592		6.750	6.458			A7VpSrCrEuSiKsn	138	0
64	V* OX Pup	a2*	07 47 05.7565479792	-39 19 51.585710340		6.171	6.322			ApSi	85	0
65	HD 64740	*	07 53 03.6353775	-49 36 46.952967	3.48	4.40	4.63	4.76	4.97	B2V	206	0
66	* 53 Cam	a2*	08 01 42.4403874648	+60 19 27.806833200		6.177	6.008			A3VpSrSiCrEu	397	0
67	HD 64486	PM*	08 04 47.0588749680	+79 28 46.609833972	5.210	5.339	5.387			B9.5IVs	84	0
68	HD 72106	**	08 29 34.89852	-38 36 21.1321				9.32		A0IV	71	0
69	V* TZ Lyn	a2*	08 31 10.6434191712	+40 13 29.604504972		6.810	6.714			A0pv	165	0
70	* 3 Hya	a2*	08 35 28.1987898408	-07 58 56.257821768	5.68	5.69	5.72			A1VpSrCr	165	0
71	* 47 Vel	a2*	08 35 52.0273953624	-50 58 10.728609996		5.651	5.782			ApSi	106	0
72	* b Cnc	a2*	08 44 45.0357084768	+10 04 54.007285728	5.30	5.55	5.66			A1VpHgMnSiEu	184	0
73	HD 75445	PM*	08 48 42.9334141680	-39 14 01.940046864		7.40	7.12			ApSrEu(Cr)	59	0
74	* 36 Lyn	Ro*	09 13 48.2131781112	+43 13 04.193952924	4.72	5.148	5.282			~	211	0
75	V* KU Hya	a2*	09 22 50.8563427	-09 50 19.659199	6.86	6.75	6.53			ApEuCrSr	167	0
76	HD 83368	a2*	09 36 25.40686	-48 45 04.2549		6.480	6.232			A8VSrCrEu+F9V	266	0
77	V* IO Vel	a2*	09 38 03.2159284704	-54 13 08.778650664		6.771	6.871			ApSi	54	0
78	V* V423 Car	a2*	09 55 05.9996548464	-57 22 58.525055328		6.62	6.74			ApSi	38	0
79	V* V495 Car	a2*	10 07 56.6284444848	-62 13 17.099698800		6.335	6.440			ApSi	37	0
80	HD 88385	a2*	10 09 49.4475936384	-56 44 53.245713372	8.02	8.11	8.09			ApCrEu(Sr)	43	0
81	HD 89103	*	10 15 34.4235698160	-49 13 26.916692052		7.69	7.78			ApSi	34	0
82	* 25 Sex	a2*	10 23 26.4782253528	-04 04 26.518221624	5.70	5.87	5.97			ApSiCr	130	0
83	* 45 Leo	a2*	10 27 38.9889218664	+09 45 44.610005160	5.89	5.98	6.04			B9.5IV-VpSiCrSr(Mn)	138	0
84	V* V407 Car	a2*	10 38 17.5533646560	-65 02 30.968296872		6.646	6.711			B9Vn	88	0
85	HD 92499	*	10 40 08.5912210416	-43 04 50.514871224		9.29	8.88			ApSrEuCr	38	0
86	V* V364 Car	a2*	10 40 11.4474547680	-65 06 00.752607072	4.79	5.36	5.52			ApSi	144	0
87	HD 94427	*	10 53 56.7156975264	-12 26 04.372674396		7.73	7.36			ApSrEuCr	36	0
88	V* KQ Vel	a2*	10 55 01.0131717072	-42 15 03.962480184	5.78	6.03	6.11			Ap(SiCr)	132	0
89	V* EP UMa	a2*	11 09 39.7864853928	+67 12 36.756332280		6.278	6.061			A7IVpSr	84	0
90	V* SV Crt	a2*	11 16 58.1772734352	-07 08 04.869775428	6.49	6.34	6.14			ApSrCrEu	202	1
91	HD 98340	**	11 17 53.6955088	-59 14 11.042239		7.08	7.13			B9IV(pSiCr)	36	0
92	V* V816 Cen	dS*	11 37 37.0409608152	-46 42 34.877876832	8.99	8.79	8.03			F8/G0p	313	0
93	* bet Hya	a2*	11 52 54.52149	-33 54 29.2672	3.85	4.18	4.28	4.27	4.35	kB8hB8HeA0VSi	101	0
94	* 65 UMa B	EB*	11 55 11.3304120408	+46 28 11.166446208		7.007	6.965			F0IVspCrSrEu	80	0
95	HD 105382	Be*	12 08 05.2222663992	-50 39 40.575451536	3.65	4.32	4.47	4.53	4.70	B5V	168	0
96	V* CU Oct	a2*	12 11 09.4105991088	-83 46 41.502685008		7.47	7.37			ApSi	36	0
97	* 17 Com	a2*	12 28 54.7022406648	+25 54 46.265813136		5.208	5.236			B9VCrEu	273	0
98	* 21 Com	a2*	12 31 00.5605002264	+24 34 01.797245328		5.496	5.436			A2pv	264	0
99	* gam Mus	SB*	12 32 28.0134336	-72 07 58.759701	3.12	3.73	3.88	3.91	4.08	B5V+A:	146	0
100	V* AX CVn	a2*	12 39 16.8606994152	+35 57 07.050433068		6.466	6.385			A0pSrCrEuKsn	172	0
101	V* EP Vir	a2*	12 47 02.3094265104	+05 57 01.397945376	6.23	6.29	6.34			A0VspSrCrEu	173	0
102	* eps UMa	a2*	12 54 01.7495922	+55 57 35.362645	1.76	1.75	1.77	1.79	1.82	A1III-IVpkB9	469	0
103	* alf02 CVn	a2*	12 56 01.6655889007	+38 19 06.155170512	2.44	2.76	2.88	2.98	3.05	A0VpSiEu	671	0
104	V* V823 Cen	a2*	12 56 58.2225017496	-54 35 14.478644184		6.431	6.485			ApSiCr	72	0
105	HD 115226	a2*	13 18 00.0189897768	-72 57 00.947433276		8.84	8.50			ApSr(Eu)	35	0
106	V* HH Com	a2*	13 18 37.2495284424	+26 21 56.748367008		8.08	7.83			A2p	113	0
107	HD 115440	a2*	13 20 04.5028306680	-76 25 09.074880912		8.30	8.24			Ap(Si)	36	0
108	HD 116114	PM*	13 21 46.3079033856	-18 44 31.563482928		7.34	7.02			F0VpSrCrEu	135	0
109	* 67 Mus	SB*	13 25 50.3011677024	-70 37 38.109211896		5.626	5.651			ApHg(Mn)	124	0
110	V* EZ Mus	a2*	13 28 46.7866924608	-69 37 37.635408696		6.163	6.179			B8pSi	57	0
111	HD 117025	PM*	13 29 07.9098687240	-64 40 32.882662236	6.23	6.20	6.07			ApSrEuCr	49	0
112	* o Vir	a2*	13 34 07.9318557	+03 39 32.273821	4.96	4.96	4.94	4.86	4.89	ApEuCrSr	336	0
113	V* CQ UMa	a2*	13 40 21.3848060304	+57 12 27.374885568		6.380	6.273			A2IVpSrCr	117	0
114	HD 118913	*	13 42 26.9555218248	-69 14 48.912765900		7.76	7.69			ApEuCrSr	31	0
115	HD 119308	*	13 43 12.7839118464	-35 17 24.888812064		7.90	7.86			ApSrCrEu	34	0
116	V* V827 Cen	a2*	13 44 16.0025041176	-51 00 44.822666448		6.323	6.440			ApSiCr	106	0
117	* 84 UMa	a2*	13 46 35.6567876472	+54 25 57.643558644		5.632	5.675			A0VpSrCrEu	157	0
118	V* V828 Cen	a2*	14 03 27.4674533712	-41 25 24.032196948		5.986	6.088			ApSi	97	0
119	V* PP Vir	a2*	14 04 48.9376773456	+05 24 51.459774732		8.70	8.29			F0	79	0
120	V* CU Vir	a2*	14 12 15.8054758	+02 24 33.953395	4.46	4.90	5.02	5.10	5.23	ApSi	384	0
121	V* CS Vir	a2*	14 18 38.2505609712	-18 42 57.465294264	5.86	5.90	5.90			ApSi(Cr)	312	0
122	* a Cen	Ro*	14 23 02.2390294	-39 30 42.549250	3.50	4.24	4.42	4.53	4.70	B2V	270	0
123	V* BS Cir	a2*	14 23 32.0676955944	-66 38 42.121272156		6.88	6.76			ApSi(Cr)	54	0
124	V* FF Vir	a2*	14 25 55.8786309720	+00 59 33.756435456	7.07	7.09	7.07			ApEuSrCr	173	0
125	HD 127453	*	14 34 59.9683790616	-69 27 11.465001648		7.36	7.36			ApSi	33	0
126	V* CH Cir	a2*	14 35 35.0882290512	-68 44 20.832248184		7.75	7.75			ApSi	36	0
127	V* IT Lup	a2*	14 40 19.2710755512	-45 47 37.824571176		6.504	6.615			ApSi	61	0
128	* alf Cir	a2*	14 42 30.4195804	-64 58 30.493451	3.55	3.43	3.19	2.96	2.86	A7VpSrCrEu	359	0
129	* mu. Lib	**	14 49 19.05130	-14 08 56.4766	5.33	5.38	5.31			ApSrEuCr	113	0
130	HD 129899	a2*	14 51 30.0361856688	-77 10 33.495169116		6.41	6.44			ApSi	36	0
131	HD 133029	a2*	15 00 38.7178984848	+47 16 38.791986348		6.250	6.351			A0VspSiSrCr	214	0
132	HD 132322	*	15 01 35.9094629184	-63 55 37.121654100		7.61	7.37			FpSrCrEu	36	0
133	V* HZ Lup	a2*	15 06 33.1978166352	-30 55 06.533677056		5.893	5.977			ApSi	107	0
134	V* HR Lup	a2*	15 08 12.1238757000	-40 35 02.155417224	5.25	5.65	5.79			B8IVSi	168	1
135	HD 134305	*	15 08 44.8571608464	+12 29 19.964378508	7.580	7.450	7.250			A7p	38	0
136	V* HI Lib	a2*	15 09 02.4051867312	-13 59 58.675373736		7.84	7.46			F2VpSrCrEu	130	0
137	HD 133792	*	15 09 25.5217838448	-63 38 34.549433448		6.298	6.247			ApSrCrEu	76	0
138	* bet CrB	a2*	15 27 49.7315305	+29 06 20.522375	4.08	3.97	3.68	3.50	3.45	F2VpSrCrEuSi	679	0
139	* 33 Lib	a2*	15 29 34.7424021408	-17 26 27.377921220	7.22	7.07	6.69			F0VspEuGdSr	249	0
140	V* NN Aps	a2*	15 31 27.1154643312	-71 03 43.664769144		6.76	6.87			Ap(SiCrFe)	92	0
141	HD 138758	*	15 40 27.2341578000	-74 26 35.551813884		7.86	7.89			ApSi	32	0
142	* chi Ser	a2*	15 41 47.4147355608	+12 50 51.093705840	5.42	5.37	5.33	5.28	5.32	A2VpMnEu(Sr)	184	0
143	V* BP Boo	a2*	15 42 50.7602109000	+52 21 39.243860316		5.430	5.482			A0VpSiCr	132	0
144	* 3 Sco	Ro*	15 54 39.5296532472	-25 14 37.459966128	5.23	5.81	5.87			B8III/IV	209	0
145	V* V913 Sco	Ro*	15 58 34.8665694960	-24 49 53.361727284	4.70	5.34	5.43			B5V	200	0
146	V* LL Lup	a2*	16 01 58.8643741128	-37 32 03.725218680		7.48	7.41			ApSi	71	0
147	HD 144334	**	16 06 06.3891324384	-23 36 22.849641396	5.29	5.84	5.92			B8V	190	0
148	* nu.02 Sco	**	16 11 58.528032	-19 27 00.81612	6.06					B8/9V	123	0
149	V* V933 Sco	a2*	16 20 05.4927999744	-20 03 23.030685720		7.56	7.40			B9II/III	188	0
150	V* DQ Dra	a2*	16 24 25.3384367736	+55 12 18.346742676		5.736	5.734			A2pSi	99	0
151	* ome Her	a2*	16 25 24.9546742056	+14 01 59.762072676	4.53	4.57	4.58	4.51	4.55	A2VpCrSr	233	0
152	V* V1028 Sco	a2*	16 27 29.6805068520	-29 17 17.780088804		7.10	7.01			ApSi	89	0
153	V* V773 Her	a2*	16 36 42.9385265832	+15 29 50.827223688		6.296	6.355			A2VpSiSrCr	107	0
154	HD 149911	*	16 38 01.5530814624	-06 32 16.848232332		6.25	6.09			ApSrCrEu	62	0
155	V* V1062 Sco	a2*	16 38 30.9410484900	-39 09 08.389193766		6.92	6.95			ApSi	55	0
156	* l Her	a2*	16 47 46.4200216512	+05 14 48.291336960	5.20	5.22	5.24			A1VpSi	128	0
157	* 52 Her	a2*	16 49 14.21821	+45 58 59.9620		4.914	4.823			A1VpSiSrCr	255	0
158	V* V911 Sco	a2*	16 52 27.4149431256	-40 43 23.358090648		6.184	6.315			ApSiSr:	64	0
159	V* V451 Her	a2*	17 01 33.0515292528	+14 56 58.988031648	6.39	6.35	6.31			A0VpSiSrCrEu	176	0
160	HD 154708	a2*	17 10 28.5163457616	-58 00 17.416695708		9.23	8.76			ApSrEu	85	0
161	HD 157751	*	17 26 41.1938555088	-34 05 32.487196416		7.60	7.62			ApSiCr(Sr)	42	0
162	HD 164258	a2*	18 00 15.6738880464	+00 37 46.112578968	6.70	6.52	6.37			A6VpSrCr	97	0
163	HD 165474	*	18 05 42.8401334904	+12 00 12.191017896		7.685	7.402			~	99	0
164	* phi Dra	a2*	18 20 45.43224	+71 20 16.1499		4.15	4.22			B8V	195	0
165	HD 168856	*	18 22 10.8205486968	-07 29 55.602976200		7.13	7.05			ApSi	42	0
166	V* V4050 Sgr	a2*	18 22 53.0754352224	-36 40 10.400061108		5.20	5.34			B7Ib/II	165	0
167	V* V432 Sct	a2*	18 29 46.7597878008	-14 34 55.154828424		6.014	6.027			ApEuCrEu	101	0
168	V* V451 Sct	a2*	18 33 50.7998800344	-14 25 32.847715668		8.09	7.89			ApSi	28	0
169	HD 171586	a2*	18 35 36.4929240936	+04 56 09.562670484	6.52	6.53	6.46			A0VpSrSi	80	0
170	V* V535 Her	a2*	18 45 35.6181098712	+21 59 04.850169216		6.524	6.522			A1VpSiHgMn	153	0
171	HD 175132	*	18 52 07.2499320864	+41 22 59.680929396		6.187	6.269			B9IIIpSi	56	0
172	V* V686 CrA	a2*	18 56 40.4859327624	-37 20 35.701261512	4.53	5.24	5.38			B3V	204	0
173	* 10 Aql	a2*	18 58 46.9240671288	+13 54 23.941711692	6.23	6.14	5.89			A7VpSrEu_Ksn	281	0
174	V* EE Dra	a2*	18 58 52.6267962600	+69 31 52.648832568		6.353	6.506			B9III	96	1
175	HD 172690	*	19 02 14.4154344264	-83 56 23.249728896		7.47	7.49			ApSi(SrCr)	31	0
176	HD 176196	*	19 06 56.1273970992	-74 45 26.801310564		7.45	7.51			ApEuCr(Sr)	23	0
177	* 19 Lyr	a2*	19 11 46.0084477416	+31 17 00.443746788		5.866	5.932			B8IIIpSiSr	100	0
178	HD 183339	*	19 25 46.7645404704	+58 01 38.356203360	5.88	6.450	6.594			B7IV	83	0
179	* 4 Cyg	a2*	19 26 09.1269274848	+36 19 04.432147356	4.60	5.03	5.15			B8pSi(FeII)	142	0
180	V* PW Tel	a2*	19 33 21.6223874880	-45 16 18.394560768		5.562	5.583			ApCrEuSr	81	0
181	V* V1264 Cyg	a2*	19 34 43.9289472528	+43 56 45.076870104		6.589	6.620			A0p	110	0
182	V* V3961 Sgr	a2*	19 51 50.6106718344	-39 52 27.738309468	5.05	5.27	5.33			ApCr(Si)	183	0
183	V* V1291 Aql	a2*	19 53 18.7357174440	-03 06 52.063556976		5.837	5.619			F0VpSrCrEu	275	0
184	V* V1372 Cyg	a2*	20 13 36.3254054976	+53 39 33.549009120		7.334	7.333			A4p	129	0
185	* 73 Dra	a2*	20 31 30.4066960752	+74 57 16.653861468		5.271	5.185			A9:VpCrSrEu	260	1
186	V* V2015 Cyg	a2*	20 33 54.8435604456	+46 41 37.867484940		5.626	5.769			B8pSi	102	0
187	* 20 Cap	a2*	20 59 36.1395973248	-19 02 07.002794616		6.12	6.25			ApSi	85	0
188	HD 200177	**	21 00 06.6110963424	+48 40 45.986347956		7.35	7.34			B9p	58	0
189	HD 201018	HS*	21 08 07.6128003360	-37 02 42.863192916	8.69	8.76	8.63			sdB+F	26	0
190	* gam Equ	a2*	21 10 20.5000721160	+10 07 53.691967776	5.03	4.94	4.68	4.43	4.32	A9VpSrCrEu	541	0
191	* tet01 Mic	a2*	21 20 45.6194367384	-40 48 34.620146136	4.77	4.84	4.82	4.73	4.69	ApCrEuSr	134	0
192	HD 204411	a2*	21 26 51.6219389280	+48 50 06.599806584	5.54	5.38	5.31			A4VpSiCrHg	184	0
193	HD 205087	*	21 32 27.0141683568	+23 23 40.505670060		6.611	6.680			A0VpSiSr	86	0
194	V* BD Ind	a2*	21 56 56.6970333720	-61 50 46.320856080		7.42	7.19			ApSrEuCr	62	0
195	V* BK Gru	a2*	22 24 37.6103122272	-39 07 37.475207724		7.00	6.84			ApSrEuCr	61	0
196	V* GQ Cep	a2*	22 39 22.8991823280	+75 39 27.460915704		8.11	8.15			A0p	63	0
197	HD 216018	*	22 49 26.5144571184	-11 20 57.251608404		7.97	7.62			A(3)+F(m)	43	0
198	V* BP Gru	a2*	23 01 46.8211202616	-44 50 26.878698672		7.99	7.52			ApSrSi:	128	0
199	HD 217833	a2*	23 02 43.8966254040	+55 14 10.977469584		6.439	6.525			B8III	90	0
200	* kap Psc	a2*	23 26 55.9558721856	+01 15 20.177913204	4.94	4.98	4.94	4.87	4.90	A2VpSrCrSi	272	0
201	V* CG Tuc	a2*	23 29 00.9815552856	-63 06 38.359594512		5.51	5.68			ApSi	94	0
202	V* V354 Peg	a2*	23 31 43.0297787640	+28 24 12.555107604		6.418	6.388			A0VpSrCrSiHg	73	0
203	V* V436 Cas	a2*	23 32 47.6484957000	+57 54 20.112470496		7.72	7.55			A0p	114	0
204	* i03 Aqr	Pe*	23 51 21.3383366673	-18 54 32.990905266	4.62	5.04	5.18			A0VpSiSr	199	0

To bookmark this query, right click on this link: simbad:objects in 2014MNRAS.443.1629S and select 'bookmark this link' or equivalent in the popup menu