2009MNRAS.392..448H

Query : 2009MNRAS.392..448H

2009MNRAS.392..448H - Mon. Not. R. Astron. Soc., 392, 448-454 (2009/January-1)

An analysis of V sin (i) correlations in early-type binaries.

HOWE K.S. and CLARKE C.J.

Abstract (from CDS):

We use information on the v sin(i) values of early-type binaries in order to search for correlations which may constrain the relative orientation of the stellar spin axes in binary systems. We find correlations in the case of close binaries which suggest that tidal synchronization is effective for binaries whose separation exceeds the stellar radius by more than an order of magnitude, in line with the theoretical predictions of Goldreich & Nicholson and the previous observational analysis of Giuricin et al. In the case of wide binaries, the v sin(i) values are not well correlated, which requires that the magnitude of the spin speeds is not tightly correlated. Under this assumption, we then find that the data provide no significant constraints on the degree of alignment of spin axes. The data are therefore compatible with scenarios (such as disc fragmentation or capture) which differ widely in the expected degree of spin alignment.

Abstract Copyright: © 2008 The Authors. Journal compilation © 2008 RAS

Journal keyword(s): binaries: spectroscopic - binaries: visual - stars: early-type - stars: rotation

VizieR on-line data: <Available at CDS (J/MNRAS/392/448): tablea1.dat refs.dat>

Simbad objects: 132

goto Full paper

goto View the references in ADS

Number of rows : 132
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 * bet01 Tuc ** 00 31 32.6680562275 -62 57 29.582843542   4.249 4.289     B9.5Va 114 0
2 * pi. Cas SB* 00 43 28.0696827024 +47 01 28.364798856   5.120 4.949   4.79 A5V 80 0
3 * nu. And SB* 00 49 48.8463243776 +41 04 44.079221948 3.80 4.38 4.53 4.56 4.71 B5V 219 0
4 HD 5789 * 01 00 03.5576514672 +44 42 47.691064620   6.01 6.05     B9.5Vnn_lB 58 0
5 * 74 Psc A ** 01 05 40.9441288477 +21 28 23.490840041 5.26 5.263 5.273     A0IV-Vnn 79 0
6 * 74 Psc B PM* 01 05 41.7111106896 +21 27 55.612006704   5.405 5.455     B9IVn 72 0
7 HD 8803 * 01 26 53.5527243720 +03 32 08.335219524   6.58 6.66 7.65   B9V 68 0
8 * phi Phe SB* 01 54 22.0319152104 -42 29 48.942141036   5.055 5.109     A3V 115 0
9 * 59 And A * 02 10 52.8244847376 +39 02 22.353796176   6.01 6.07     B9V 47 0
10 HD 15695 * 02 31 29.8654830000 +01 05 39.243620364   7.66 7.50     kA2hA6mF2 30 0
11 * ome For * 02 33 50.7014978880 -28 13 56.415570096 4.7 4.90 4.96     B9Va 67 0
12 HD 18537 Pu* 03 00 52.2110264304 +52 21 06.248122308 4.78 5.158 5.219     B7V 80 0
13 HD 18538 * 03 00 53.5166181384 +52 21 07.302980844   6.74 6.74     B9V 51 0
14 V* V798 Cas a2* 03 00 53.7837602400 +59 39 57.437761464   7.32 7.34     B9pSi 43 0
15 HD 21700 * 03 31 03.4640544360 +27 43 53.569285752   7.48 7.43     B9 31 0
16 HD 21743 * 03 31 20.7532742568 +27 34 18.505694532   6.60 6.57     A1V 39 0
17 * tau05 Eri SB* 03 33 47.2758917450 -21 37 58.384116886   4.15 4.25     B9V 109 0
18 HD 23277 SB* 03 49 13.7392842504 +70 52 15.780722844   5.489 5.391     kA2hA6VmA7 62 0
19 * eps Per bC* 03 57 51.2320472 +40 00 36.775143 1.71 2.71 2.89 2.96 3.14 B0.5III 519 0
20 V* V386 Per dS* 03 58 03.1439397408 +34 48 50.287064472 6.800 6.740 6.530     A8V 71 0
21 HD 25833A EB* 04 06 55.8286148575 +33 26 46.929071509   6.83 6.87     ~ 260 0
22 HD 25833 ** 04 06 55.8351101323 +33 26 47.009585515       7.71   B3Vn 267 0
23 V* GW Eri SB* 04 11 36.2037143376 -20 21 22.156679988 6.05 5.96 5.80 5.64 5.59 A1V+(F/G) 77 0
24 * tau Tau SB* 04 42 14.6992451952 +22 57 24.850133388   4.138 4.258     B3V 192 0
25 HD 32040 Pu* 05 00 33.9358613640 +03 36 56.805165648 6.220 6.550 6.630     B9V 66 0
26 * 66 Eri a2* 05 06 45.6527881872 -04 39 18.601025148 4.89 5.06 5.12     B9V 151 1
27 HD 33357 Be* 05 11 42.9274371912 +42 09 55.275165324 7.67 8.55 8.55     B1:V:ne 181 0
28 HD 34528 * 05 17 33.2558148912 -15 37 44.607938160   8.77 8.55     A5IV 6 0
29 HD 34527 * 05 17 35.5017678600 -15 13 10.449971796   6.91 6.97     B9V 29 0
30 * 17 Aur EB* 05 18 18.8960529504 +33 46 02.516925540   6.102 6.144     B9V+B9.5V 300 0
31 HD 34790 SB* 05 21 12.6874270872 +29 34 11.592726924 5.760 5.710 5.670     A1Vs 63 0
32 * 23 Ori SB* 05 22 50.0039865384 +03 32 40.051458204 3.99 4.86 5.00 5.05 5.23 B2IV/V 247 0
33 HD 35148 EB* 05 22 51.0349642536 +03 33 07.992432144 6.44 7.06 7.18     B8/9 43 0
34 * eta Ori bC* 05 24 28.61672 -02 23 49.7311 2.25 3.18 3.35 3.44 3.65 B1V+B2: 398 0
35 * 118 Tau ** 05 29 16.50008 +25 09 00.7781 5.270 5.440 5.480     B9V 72 0
36 HD 36960 * 05 35 02.6823091513 -06 00 07.308349203 3.52 4.50 4.72     B0.5V 268 0
37 * tet02 Ori A SB* 05 35 22.9012398264 -05 24 57.832632108 5.37 6.30 6.39 6.30 6.35 O9.5IVp 543 0
38 HD 37330 Be* 05 37 53.4548188824 +00 58 06.986462124 6.76 7.31 7.38     B5III 46 0
39 HD 37646 EB* 05 41 20.9767433472 +29 29 14.696722284 5.93 6.292 6.392     B8IV 49 0
40 HD 37647 EB* 05 41 21.4679704416 +29 29 39.899595588   7.042 7.082     A 28 0
41 * 52 Ori ** 05 48 00.2337055416 +06 27 14.944887000       6.56   A5V 75 0
42 * 30 Cam * 05 52 17.2544232120 +58 57 50.718923964   6.096 6.132     A0Vs 32 0
43 HD 42111 * 06 08 57.9037271424 +02 29 58.885200456 5.86 5.80 5.73     B9V 124 0
44 * 41 Aur B PM* 06 11 36.5527610136 +48 42 47.036470500   7.00 6.84     kA5hA5mF0(IV-V) 34 0
45 * 41 Aur A PM* 06 11 36.5917001808 +48 42 39.557130588   6.21 6.15     A2Va+ 39 0
46 HD 44333 EB* 06 21 25.7704520 +02 16 06.678015   6.539 6.280     A4/5IV 85 0
47 V* WW Aur EB* 06 32 27.1847665440 +32 27 17.632429092   6.005 5.829     ~ 249 0
48 * 12 Lyn ** 06 46 14.13019 +59 26 30.0227       6.11   A2.5V 103 0
49 V* HZ CMa Be* 06 50 23.3482557912 -31 42 21.808309320   5.829 5.747     B6IVe+A 90 0
50 * 29 CMa SB* 07 18 40.3789353696 -24 33 31.318248528 3.80 4.80 4.95 4.95 5.08 O7Iafpvar 417 0
51 * k01 Pup * 07 38 49.3751428464 -26 48 06.324538176 3.76 4.33 4.50     B6V 62 0
52 HD 66068 SB* 08 04 35.9505778128 +53 40 42.774844548 7.460 7.350 7.040     kA4hA9mF3(III)Eu 35 0
53 HD 75759 SB* 08 50 21.0167636904 -42 05 23.247034188 4.95 5.90 6.00 7.18   O9V+B0V 139 0
54 * 17 Hya A SB* 08 55 29.6076709560 -07 58 16.148285328   6.91 6.70     kA4hF1mF2 42 0
55 * 17 Hya B * 08 55 29.6244769464 -07 58 12.073099728   7.109 6.907     kA1hF2mF3 34 0
56 V* CV Vel EB* 09 00 37.9905129264 -51 33 20.066036652 5.88 6.55 6.69     B2V 149 0
57 HD 80024 ** 09 18 25.90900 +35 21 50.6727 6.240 6.110 5.940 7.01   A8V 56 0
58 * 38 Lyn EB* 09 18 50.6435791217 +36 48 09.345084336   3.96 3.92   3.81 A1V 143 0
59 HD 82984 ** 09 33 44.53887 -49 00 18.2741 4.43 5.00 5.12     B5III 60 0
60 V* V560 Car SB* 10 44 33.7393258944 -59 44 15.434446956 6.89 7.80 7.75 7.56 7.46 O3.5V((f))+O8V 301 0
61 * 40 UMa SB* 10 45 59.8723691592 +56 55 15.038763420   7.41 7.105     A8V 42 0
62 * 54 Leo A PM* 10 55 36.8013543552 +24 44 59.022329568   4.478 4.477 6.04   A1V 64 0
63 * 54 Leo B PM* 10 55 37.2484273656 +24 44 56.549843772   6.36 6.29     A2Vn 35 0
64 V* EM Car EB* 11 12 04.5060592584 -61 05 42.944560584 8.06 8.80 8.54 9.25   O7.5V((f))+O7.5V((f)) 163 0
65 V* TU Mus EB* 11 31 10.9241479224 -65 44 32.099167788 7.58 9.52 9.34 9.25   O8V(n)z+B0V(n) 171 0
66 V* V1051 Cen EB* 11 37 48.4343499072 -63 19 23.518561512 6.28 7.18 7.16 8.11   O5.5V((f))+O8:V 147 1
67 HD 112014 SB* 12 49 06.6700877376 +83 25 04.221296940 5.830 5.860 5.850     A0V+A2V 61 0
68 HD 112486 ** 12 56 17.56470 +54 05 58.1693           kA2hA8mA7+F5/7IV/V 54 0
69 * zet01 UMa SB* 13 23 55.5422805173 +54 55 31.295579890 2.11 2.271 2.220 2.10 2.12 A1.5Vas 310 0
70 * 3 Cen ** 13 51 49.60136 -32 59 38.7067           B5III+B9IV 248 0
71 HD 125273 SB* 14 16 44.7857782272 +53 15 48.811024296   8.13 7.85     A5 26 0
72 * lam Vir SB* 14 19 06.5926692303 -13 22 15.928662088 4.750 4.660 4.520   4.43 A1V 148 0
73 BD+09 2882 ** 14 23 22.69526 +08 26 47.8351 4.89 4.92 4.87     ~ 112 0
74 BD+09 2882A PM* 14 23 22.6954782600 +08 26 47.826605184   5.027 5.037     A0V 20 0
75 HD 126367 * 14 25 29.8911563832 -19 58 11.936889588   6.709 6.595     A1/2V 44 0
76 HD 127067 * 14 28 33.2931696096 +28 17 25.906498224   7.099 7.111     A1V 36 0
77 HD 126983 SB* 14 30 20.9429507016 -49 31 08.533544160   5.423 5.376     A2Vs+A2Vs 53 0
78 * mu. Lib ** 14 49 19.05130 -14 08 56.4766 5.33 5.38 5.31     ApSrEuCr 114 0
79 * tau Lib SB* 15 38 39.3694957 -29 46 39.895604   3.481 3.642     B2.5V 158 0
80 * 7 CrB A SB* 15 39 22.6728430896 +36 38 08.919815568   4.871 4.979     B7V 92 0
81 * pi. Sco EB* 15 58 51.1132378 -26 06 50.788602 1.82 2.71 2.91 3.00 3.20 B1V+B2:V: 397 0
82 * nu. Sco ** 16 11 59.73568 -19 27 38.5361 3.42 4.05 4.00 3.90 3.87 B2V 381 0
83 * 37 Her ** 16 40 38.6871912144 +04 13 11.243186652   5.749 5.761   5.75 B9V 75 0
84 * mu.01 Sco EB* 16 51 52.2283548696 -38 02 50.638070400 1.98 2.82 2.98     B1V+B 295 0
85 V* U Oph EB* 17 16 31.7137908168 +01 12 37.998551304   5.941 5.921     B3V 380 1
86 HD 161184 ** 17 43 51.657 +05 50 42.10   9.19 9.20 8.76   A0 42 0
87 V* V624 Her EB* 17 44 17.2471919784 +14 24 36.246660912   6.398 6.194     A3m 161 0
88 HD 161621 ** 17 46 26.78976 +05 42 01.4364           A0 42 0
89 HD 161756 Be* 17 48 27.8366974488 -26 58 29.802812412 6.05 6.47 6.35     B3Vn 76 0
90 V* V539 Ara EB* 17 50 28.3930000656 -53 36 44.664776352   5.60 5.71     B2/3Vnn 181 0
91 V* V906 Sco EB* 17 53 54.7731227 -34 45 09.785378   5.95 5.96     B9V+B9V 122 0
92 HD 164492 Y*O 18 02 23.5527520992 -23 01 50.999556180 6.49 7.49 6.80 7.52   O7.5Vz 229 0
93 HD 165052 SB* 18 05 10.5506592816 -24 23 54.847798080 6.16 6.98 6.87 7.77   O6.5V((f))z 266 1
94 * 100 Her A ** 18 07 49.5667844616 +26 06 04.541919552   5.966 5.819     A3V 66 0
95 * 11 Sgr Or* 18 09 17.6999100192 -23 59 18.231196056 6.65 7.45 7.31 8.36   O7V(n)z+B0:V: 139 2
96 * 108 Her SB* 18 20 56.9702350080 +29 51 32.123419848   5.84 5.63   5.37 kA3mA7+A9V 93 0
97 V* V451 Oph EB* 18 29 14.0426779320 +10 53 31.429623012   7.95 7.91     A0IV 165 0
98 V* RX Her EB* 18 30 39.2600750472 +12 36 40.330018404   7.35 7.29     A0Vv 182 0
99 * e Ser SB* 18 37 35.9626209120 -00 18 34.110143856   5.816 5.768     A0V 80 0
100 HD 173087 * 18 42 08.0883472656 +34 44 46.751348076   6.346 6.473     B5V 80 0
101 * c Dra SB* 18 42 37.9596158552 +55 32 22.007313973   4.94 5.02     A0IIIpHgMn 183 0
102 * eps01 Lyr B PM* 18 44 20.3118470592 +39 40 14.888435268   6.363 6.062     F0V 50 0
103 * eps01 Lyr A PM* 18 44 20.3437462368 +39 40 12.465005484   5.111 4.991     A3V 62 0
104 * 5 Aql A SB* 18 46 28.5938261544 -00 57 42.092897652 6.15 6.03 5.90     kA3hA5VmA6 82 0
105 V* DI Her EB* 18 53 26.2399243224 +24 16 40.792648332   8.46 8.47     B5III 264 0
106 HD 176795A * 18 53 33.2375859332 +75 47 14.493873611   6.71 6.72     B9.5IV 28 0
107 * tet01 Ser PM* 18 56 13.1871962688 +04 12 12.982091004   4.74 4.57     A5V 128 0
108 * tet02 Ser PM* 18 56 14.6410220472 +04 12 07.659433620   5.18 4.98     A5Vn 73 0
109 V* BH Dra SB* 19 03 39.5419708392 +57 27 25.861535388   8.47 8.43     A1Vn 74 0
110 HD 177624 EB* 19 05 08.5456179312 +09 38 31.678403676   7.03 6.88     B3V 36 0
111 HD 178322 SB* 19 09 57.6520020528 -41 53 32.083602864   5.765 5.855     B5V+B6V 54 0
112 V* Z Vul EB* 19 21 39.1059700488 +25 34 29.440304652 6.96 7.40 7.33     B3/5+A3IV? 207 0
113 * bet01 Sgr Pu* 19 22 38.2992119424 -44 27 32.250184884 3.52 3.91 4.01     B9V 77 0
114 * sig Aql EB* 19 39 11.6423977488 +05 23 51.979984260 4.60 5.20 5.17     B3V 169 0
115 * 57 Aql A * 19 54 37.6524632016 -08 13 38.241542244   5.63 5.71     B7Vn 72 0
116 * 57 Aql B * 19 54 38.0631564696 -08 14 13.392079800   6.42 6.44     B8V 62 0
117 V* V477 Cyg EB* 20 05 27.6886714176 +31 58 18.108420780   8.68 8.53     A1V 214 1
118 HD 195066 * 20 26 23.4737901288 +56 38 19.300632504   6.383 6.369     B9V 42 0
119 * omi Cap B PM* 20 29 52.5938394168 -18 35 10.895921556   6.96 6.74     A7/8V 51 0
120 * omi Cap A PM* 20 29 53.9094947640 -18 34 59.460677724   5.969 5.897     A1V 62 0
121 HD 202260 ** 21 14 41.1115052 -00 49 55.011727   7.54 7.45     A0V 47 0
122 HD 208440 Y*? 21 53 53.2978442568 +62 36 00.753455268 7.24 7.93 7.91     B1V 98 0
123 V* CM Lac SB* 22 00 04.4501141616 +44 33 07.736337396   8.40 8.21     A3m 162 0
124 * ksi Cep B PM* 22 03 46.2171618624 +64 37 41.465301888   6.862 6.342 6.1   F8V 70 0
125 * ksi Cep A SB* 22 03 47.4397417176 +64 37 40.696071024   4.81 4.45 5.66   kA2.5hF2mF2(IV) 174 0
126 * ksi Cep ** 22 03 47.45499 +64 37 40.7128 4.72 4.63 4.29 3.97 3.84 Am+F7/8V 177 0
127 HD 209859 ** 22 06 01.24919 +20 48 12.3372           A4V+A7V 13 0
128 * 8 Lac B * 22 35 52.0990532376 +39 37 41.339738568 4.61 5.52 5.67 5.88 6.06 B1.Vs 114 0
129 * 8 Lac A Be* 22 35 52.2827504304 +39 38 03.586773768 4.68 5.52 5.69     B1Vne 171 0
130 HD 215835 SB* 22 46 54.1107754872 +58 05 03.533752788 8.24 8.85 8.629   8.049 O5.5V((f))+O6V((f)) 253 0
131 V* AH Cep EB* 22 47 52.9412851944 +65 03 43.795145556 6.53 7.10 6.88     B0.2V+B2V 217 0
132 V* AR Cas EB* 23 30 01.9406369832 +58 32 56.112185112 4.18 4.760 4.886     B3V 215 0

To bookmark this query, right click on this link: simbad:objects in 2009MNRAS.392..448H and select 'bookmark this link' or equivalent in the popup menu