The Nainital-Cape Survey - IV. A search for pulsational variability in 108 chemically peculiar stars

S. Joshi; P. Martinez; S. Chowdhury; N. K. Chakradhari; Y. C. Joshi; P. van Heerden; T. Medupe; Y. B. Kumar; R. B. Kuhn

doi:10.1051/0004-6361/201527242

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Volume 590 (June 2016)

A&A, 590 (2016) A116

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Table A.1

The known roAp stars and their physical parameters.

S.N.	Star name	Other	α ₂₀₀₀	δ ₂₀₀₀	Sp.	b-y	m ₁	c ₁	δ m ₁	δ c ₁	β	T _eff	Ref.
		name			Type	mag	mag	mag	mag	mag	mag	K

1.		J0008	00 08 30	+04 28 18	A9p SrEu(Cr)	–	–	–	–	–	–	7300	1
2.	HD 6532		01 05 56	–26 43 44	ApSrCrEu	0.082	0.233	0.870	–0.014	–0.051	2.882	7900	2
3.	HD 9289		01 31 16	–11 07 08	ApSrEu	0.138	0.225	0.826	–0.018	–0.012	2.833	8000	3, 4
4.	HD 12098		02 00 40	+58 31 37	F0	0.191	0.328	0.517	–0.122	–0.279	2.796	7500	5
5.	HD 12932		02 06 16	–19 07 26	ApSrEuCr	0.179	0.228	0.765	–0.024	–0.035	2.810	7620	6
6.	HD 19918		03 00 37	–81 54 07	Ap SrEuCr	0.169	0.216	0.822	–0.010	–0.058	2.855	7800	4
7.	HD 24355	J0353	03 53 23	25 38 33	A5p SrEu	–	–	–	–	–	–	8250	1
8.	HD 24712	HR 1217	03 55 16	–12 05 57	ApSrEu(Cr)	0.191	0.211	0.626	–0.023	–0.074	2.744	7250	7, 8, 9
9.	HD 42659		06 11 22	–15 47 35	ApSrCrEu	0.124	0.257	0.765	–0.050	–0.076	2.834	7500	4
10.	HD 258048	J0629	06 29 57	+32 24 47	F4p EuCr(Sr)	–	–	–	–	–	–	6600	1
11.		J0651	06 51 42	–63 25 50	F0p SrEu(Cr)	–	–	–	–	–	–	7400	1
12.	HD 60435		07 30 57	–57 59 28	ApSr(Eu)	0.136	0.240	0.833	–0.034	–0.047	2.855	7800	10
13.	HD 69013		08 14 29	–15 46 32	A2SrEu	0.296	0.330	0.400	–0.137	–0.324	2.772	7600	11
14.	HD 75445		08 48 43	–39 14 02	SrEu	0.159	0.218	0.729	–0.019	0.001	2.801	7650	12
15.		J0855	08 55 22	+32 42 36	A6p SrEu	–	–	–	–	–	–	7800	1
16.	HD 80316		09 18 25	–20 22 16	ApSr(Eu)	0.118	0.324	0.599	–0.118	–0.283	2.856	7700	13
17.	HD 83368	HR 3831	09 36 25	–48 45 04	A8pSrEuCr	0.159	0.230	0.766	–0.024	–0.062	2.825	7650	7, 14, 15
18.	HD 84041		09 41 34	–29 22 25	ApSrEuCr	0.177	0.233	0.797	–0.026	–0.061	2.844	7500	4
19.	HD 86181		09 54 53	–58 41 45	ApSr	0.172	0.205	0.757	0.001	–0.061	2.819	7900	16
20.	HD 92499		10 40 08	–43 04 51	A2SrCrEu	0.179	0.301	0.615	–0.099	0.000	2.812	7500	17
21.	HD 96237		11 05 34	–25 01 09	A4SrEuCr	0.233	0.261	0.704	–0.054	–0.122	2.824	7800	11
22.	HD 97127	J1110	11 10 54	+17 03 48	F3p SrEu(Cr)	–	–	–	–	–	–	6300	1
23.	HD 99563		11 27 17	–08 52 08	F0	0.171	0.206	0.745	–0.001	–0.090	2.830	7000	18, 19, 20
24.	HD 101065	Przbylski’s star	11 37 37	–46 43 00	Controversial	0.431	0.387	0.002	–0.204	–0.370	2.641	6800	7, 21, 22
25.	HD 115226		13 18 00	–72 57 01	A3pSr	–	–	–	–	–	–	7600	23
26.	HD 116114		13 21 46	–18 44 32	ApSrCrEu	0.172	0.226	0.843	–0.016	0.008	2.836	7600	24
27.	HD 119027		13 41 20	–28 46 60	ApSrEu(Cr)	0.257	0.214	0.557	–0.034	–0.076	2.731	7050	25
28.		J1430	14 30 50	+31 47 55	A9p SrEu	–	–	–	–	–	–	7100	1
29.	HD 122970		14 04 49	+05 24 51	F0	0.260	0.178	0.540	–0.005	–0.011	2.707	7000	26
30.	HD 128898	α Cir	14 42 30	–64 58 30	ApSrEu(Cr)	0.152	0.195	0.760	0.012	–0.077	2.831	7500	7, 27, 28
31.	HD 132205		15 00 04	–55 02 60	A2EuSrCr	–	–	–	–	–	–	7800	29
32.	HD 134214		15 09 02	–13 59 59	ApSrEu(Cr)	0.216	0.223	0.620	–0.029	–0.108	2.774	7400	30
33.	HD 137909	β CrB	15 27 50	+29 06 20	F0p	0.141	0.257	0.740	–0.056	0.002	2.839	7800	31
34.	HD 137949	33 Lib	15 29 35	–17 26 27	ApSrEuCr	0.196	0.311	0.580	–0.105	–0.236	2.818	7700	32,33,34
35.	HD 143487		16 01 44	–30 54 57	A3SrEuCr	0.311	0.262	0.393	–0.089	–0.169	2.706	7000	17
36.	HD 148593		16 29 39	–14 35 06	A2 Sr	–	–	–	–	–	–	7850	29
37.		J1640	16 40 03	–07 37 30	A8p SrEu	–	–	–	–	–	–	7400	1
38.	HD 150562		16 44 11	–48 39 18	A/F (pEu)	0.301	0.212	0.659	–0.015	–0.087	2.783	7500	4
39.	HD 151860		16 52 59	–54 09 46	A2SrEu	0.327	0.221	0.538	–	–	–	7050	29
40.	HD 154708		17 10 28	–58 00 17	Ap	0.277	0.256	0.464	–0.079	0.015	2.757	7200	35
41.	HD 161459		17 48 30	+51 55 02	ApEuSrCr	0.245	0.246	0.679	–0.040	–0.141	2.820	7950	36
42.	HD 166473		18 12 26	–37 45 09	ApSrEuCr	0.208	0.321	0.514	–0.118	–0.268	2.801	7700	37,38
43.		KIC 007582608	18 44 12	+43 17 51	Ap	–	–	–	–	–	–	8700	39
44.	HD 176232	10 Aql	18 58 47	+13 54 24	F0pSrEu	0.150	0.208	0.829	–0.004	0.031	2.809	7400	40,41
45.		KIC 010195926	19 05 27	+47 15 48	Ap	–	–	–	–	–	–	7400	42
46.		KIC 008677585	19 06 28	+44 50 33	A5p	–	–	–	–	–	–	7600	43
47.	HD 177765		19 07 10	–26 19 54	A5SrEuCr	0.248	0.261	0.731	–0.054	–0.110	2.834	8000	44
48.		J1921	19 21 29	+47 10 53	F3p SrEuCr	–	–	–	–	–	–	6200	45
49.	HD 185256		19 39 20	–29 44 34	ApSr(EuCr)	0.277	0.185	0.615	–0.004	–0.039	2.738	7250	46
50.		J1940	19 40 08	–44 20 09	F2(p Cr)	–	–	–	–	–	–	6900	1
51.		KIC 010483436	19 46 29	+47 37 50	Ap	–	–	–	–	–	–	7388	47
52.	HD 225914	KIC 004768731	19 48 26	+39 51 58	Ap	–	–	–	–	–	–	7726	48
53.	HD 190290		20 13 56	–78 52 42	ApEuSr	0.289	0.293	0.466	–0.091	–0.306	2.796	7500	36
54.	HD 193756		20 24 12	–51 43 25	ApSrCrEu	0.181	0.213	0.760	–0.008	–0.040	2.810	7500	36
55.	HD 196470		20 38 10	–17 30 06	ApSrEu(Cr)	0.211	0.263	0.650	–0.059	–0.144	2.807	7850	36
56.	HD 201601	γ Equ	21 10 20	+10 07 54	F0p	0.147	0.238	0.760	–0.032	–0.058	2.819	7600	49,50
57.	HD 203932		21 26 04	–29 55 48	ApSrEu	0.175	0.196	0.742	0.004	–0.020	2.791	7200	51
58.	HD 213637		22 33 12	–20 02 22	A(pEuSrCr)	0.298	0.206	0.411	–0.035	–0.031	2.670	6400	52
59.	HD 217522		23 01 47	–44 50 27	Ap(Si)Cr	0.289	0.227	0.484	–0.056	–0.015	2.691	7100	53
60.	HD 218495		23 09 28	–63 39 12	A2pEuSr	0.114	0.252	0.812	–0.049	–0.098	2.870	8000	36
61.	HD 218994		23 13 16	–60 35 03	A3Sr	0.154	0.196	0.826	0.008	0.032	2.807	7600	54

Notes. 1. Holdsworth et al. (2014a); 2. Kurtz et al. (1996); 3. Kurtz et al. (1994b); 4. Martinez & Kurtz (1994a); 5. Girish et al. (2001); 6. Schneider et al. (1992); 7. Kurtz (1982); 8. Kurtz et al. (2005b); 9. Mkrtichian & Hatzes (2005a); 10. Matthews et al. (1987); 11. Elkin et al. (2011); 12. Kochukhov et al (2009); 13. Kurtz et al. (1997b); 14. Kochukhov (2006); 15. Kurtz et al. (1997a); 16. Kurtz & Martinez (1994); 17. Elkin et al. (2010); 18. Dorokhova & Dorokhov (1998); 19. Handler et al. (2006); 20. Elkin et al. (2005b); 21. Mkrtichian & Hatzes (2005b) 22. Martinez & Kurtz (1990); 23. Kochukhov et al (2008); 24. Elkin et al. (2005a); 25. Martinez et al. (1993); 26. Handler et al. (2002); 27. Balona & Laney (2003); 28. Kurtz et al. (1994a); 29. Kochukhov et al. (2013); 30. Kreidl & Kurtz (1986); 31. Hatzes & Mkrtichian (2004); 32. Kurtz et al. (2005a); 33. Mkrtichian et al. (2003); 34. Kurtz (1991); 35. Kurtz et al. (2006); 36. Martinez et al. (1991); 37. Kurtz et al. (2003); 38. Kurtz & Martinez (1987); 39. Holdsworth et al. (2014b); 40. Hatzes & Mkrtichian (2005); 41. Heller & Kramer (1990); 42. Kurtz et al. (2011); 43. Balona et al. (2013); 44. Alentiev et al. (2012); 45. Holdsworth (2015); 46. Kurtz & Martinez (1995); 47. Balona et al. (2011); 48. Smalley et al. (2015); 49. Kochukhov & Ryabchikova (2001); 50. Martinez et al. (1996); 51. Martinez et al. (1990); 52. Martinez et al. (1998); 53. Kreidl et al. (1991); 54. Gonzalez et. al (2008).

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