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Table A.2.

Orbital elements of the SBs.

HD/BD P T0(JD) e V0 ω1 K1,2 m1,2 sin3 i or a1,2 sin i N1 σ(O-C)
GJ (d) 2400000+ (km s−1) (°) (km s−1) f1(m) (M) (Gm) N2 (km s−1)
HD 89978 10.98358 46482.39 0.0358 21.35 192.86 38.87 0.3809 5.867 31 0.74
GJ 58.2 0.00012 0.17 0.0036 0.10 5.44 0.17 0.0056 0.025
46.21 0.3203 6.976 23
0.36 0.0042 0.054
HD 103079 7206. 43259. 0.437 3.329 203.71 2.966 0.0142 264.3 32 0.24
GJ 67 (G) 42. 75. 0.024 0.050 4.51 0.110 0.0017 10.5
HD 1403910 80.0342 46773.64 0.3325 9.021 40.24 14.488 0.02120 15.037 52 0.35
GJ 92.1 a-b 0.0029 0.16 0.0051 0.050 0.99 0.079 0.00037 0.087
HD 14039 4570. 48277.0 0.4731 288.68 3.454 0.01338 191.27 52 0.34
GJ 92.1 ab-c 106. 27.3 0.0246 3.48 0.100 0.00135 7.67
HD 1690911 1227.77 46638.50 0.492 31.281 119.35 6.476 0.0228 95.18 23 0.24
GJ 106 3.35 4.66 0.014 0.064 1.60 0.096 0.0012 1.66
HD 1738212 5954. 48024.2 0.663 9.111 110.74 2.957 0.00671 181.3 26 0.25
GJ 113 294. 25.2 0.021 0.065 3.59 0.080 0.00081 11.2
HD 18445 C 553.89 47489.9 0.528 49.896 74.7 1.50 0.000119 9.72 32 0.38
GJ 120.1 C (G) 1.37 8.7 0.067 0.070 9.1 0.13 0.000035 0.96
HD 2072713 325.07 46515.6 0.499 7.507 228.1 7.53 0.00939 29.17 31 0.40
GJ 138.1 A (G) 0.39 1.6 0.020 0.080 1.9 0.20 0.00083 0.86
HD 2314014 5121. 48636.9 0.275 22.238 72.30 5.745 0.08967 389.02 38 0.23
GJ 150.2 45. 25.7 0.010 0.044 2.16 0.056 0.00284 5.29
BD−04 78215 716.80 49992.2 0.090 25.226 242.9 1.318 0.000168 12.93 25+15 0.42, 0.034
GJ 1069 2.01 27.8 0.018 0.023 15.0 0.041 0.000016 0.42
HD 23728716 330.45 46785.14 0.649 45.057 122.58 7.91 0.00748 27.35 26 0.30
GJ 171 0.26 2.63 0.016 0.086 1.36 0.25 0.00082 1.00
HD 283750 A17 1.787992 46999.42 0.0022 35.505 323.77 10.454 0.0002121 0.2570 54 0.29
GJ 171.2 A 0.000004 0.74 0.0052 0.040 149.67 0.056 0.0000034 0.0014
HD 286955 A 610.02 47474.27 0.399 −27.565 266.96 4.55 0.00461 35.01 24 0.36
GJ 173.1 A 1.02 5.96 0.023 0.078 4.75 0.13 0.00042 1.08
HD 4508818 6.991849 48991.973 0.1475 −8.917 79.65 56.86 0.651 5.407 41 0.51
GJ 233 0.000016 0.021 0.0019 0.080 0.85 0.11 0.011 0.011
63.70 0.581 6.06 5
1.40 0.015 0.13
HD 64468 161.119 46586.84 0.273 −15.91 323.98 5.69 0.00275 12.13 24 0.42
GJ 292.1 0.079 2.01 0.021 0.10 5.36 0.13 0.00020 0.29
HD 79096 AB19 987.82 47197.82 0.4431 49.989 170.41 11.52 0.487 140.29 56 0.65
GJ 337 AB 1.06 3.04 0.0097 0.070 1.00 0.12 0.018 1.63
11.95 0.469 145.56 45
0.21 0.016 2.70
HD 80715 3.804067 47456.2383 0.0000 −4.23 0.0 71.18 0.5691 3.7236 48 0.70
GJ 1124 0.000008 0.0025 0.0032 0.08 0.14 0.0025 0.0072
71.13 0.5696 3.7208 51
0.14 0.0025 0.0075
BD+40 2208 8.490697 46494.695 0.0993 −32.13 326.68 56.45 0.6412 6.559 21 0.81
GJ 343.1 0.000066 0.047 0.0033 0.13 2.01 0.27 0.0069 0.032
57.17 0.6332 6.642 23
0.27 0.0069 0.032
HD 8970720 298.295 48517.20 0.946 82.723 108.9 4.98 0.000131 6.63 64 0.32
GJ 388.2(G) 0.122 0.50 0.012 0.051 4.8 0.41 0.000053 0.90
BD+72 545 632.56 49608.41 0.249 −17.13 278.33 10.05 0.274 84.67 29 0.77
GJ 441 0.57 4.93 0.018 0.10 3.31 0.20 0.013 1.73
10.69 0.258 90.03 27
0.22 0.012 1.95
HD 10875421 25.93115 45956.44 0.1759 0.403 59.0 7.713 0.001179 2.707 39 0.39
GJ 469.1 (G) 0.00100 0.30 0.0117 0.069 4.2 0.100 0.000046 0.036
HD 109011 1284.38 47513.68 0.501 −10.45 250.84 9.82 0.443 150.13 35 1.20
GJ 1160 2.34 7.58 0.017 0.15 2.98 0.24 0.035 4.07
11.38 0.382 173.99 35
0.41 0.029 6.61
HD 11001022 4118. 46030. 0.199 −18.312 350.60 3.156 0.01265 175.1 37 0.27
GJ 479.1 (G) 26. 63. 0.020 0.046 6.05 0.069 0.00085 4.0
HD 110833 270.33 49797.0 0.902 9.568 251.6 1.72 0.0000115 2.77 47 0.24
GJ 483 0.54 1.0 0.044 0.047 7.4 0.31 0.0000028 0.23
HD 112575 3572.1 49872.95 0.766 −7.773 238.51 2.48 0.00151 78.42 41 0.34
GJ 489 34.5 9.04 0.021 0.063 3.93 0.10 0.00025 4.45
HD 112758 A 103.226 49672.0 0.141 3.945 333. 1.850 0.0000659 2.60 32 0.33
GJ 491 A 0.042 5.7 0.044 0.061 20. 0.083 0.0000089 0.12
HD 12535423 6819. 45990. 0.306 11.55 67.1 3.96 0.0379 353. 23 0.49
GJ 542.2 117. 0.039 0.11 7.6 0.18 0.0054 17.
HD 12750624 2669.5 52527.29 0.7086 −19.117 244.01 0.9051 0.0000720 23.44 24+56 0.24
GJ 554 17.7 1.52 0.0046 0.004 0.45 0.0057 0.0000012 0.21 0.013
HD 13151125 125.3939 44936.898 0.5096 −31.425 219.48 18.913 0.05612 28.06 82 0.31
GJ 567 0.0020 0.082 0.0026 0.036 0.39 0.076 0.00074 0.12
HD 137763 A26 889.813 47967.519 0.9733 7.47 252.64 36.42 0.4716 102.29 110 0.74
GJ 586 A 0.017 0.015 0.0006 0.20 0.73 0.38 0.0146 0.70
52.90 0.3247 148.57 10
1.73 0.0083 2.18
HD 144253 105.947 48948.02 0.1514 36.759 85.28 23.55 0.7176 33.92 25 0.56
GJ 610 0.017 0.90 0.0055 0.088 2.04 0.13 0.0118 0.19
26.72 0.6323 38.48 22
0.22 0.0097 0.32
HD 15363127 386.64 46161.5 0.186 83.208 46.1 6.080 0.00856 31.76 38 0.32
GJ 650 (G) 0.30 4.3 0.018 0.088 4.9 0.085 0.00037 0.46
HD 16034628 83.714 46972.20 0.210 21.680 145.5 5.644 0.001460 6.351 38 0.26
GJ 688 0.012 0.57 0.012 0.045 2.7 0.057 0.000046 0.067
HD 23467729 5.975114 49996.375 0.3050 −25.533 229.43 28.43 0.06225 2.225 47 0.69
GJ 719 0.000007 0.012 0.0032 0.075 0.77 0.13 0.00078 0.011
31.90 0.05548 2.496 41
0.19 0.00067 0.015
HD 18325530 166.83 46415.94 0.141 −64.95 69.0 13.91 0.2252 31.60 48 1.01
GJ 1237 0.18 1.85 0.012 0.11 4.5 0.18 0.0074 0.41
15.49 0.2022 35.18 48
0.24 0.0064 0.55
HD 18446731 494.77 46662.73 0.339 11.632 177.49 9.44 0.1583 60.41 18 0.48
GJ 762.1 0.50 2.18 0.013 0.083 2.31 0.17 0.0068 1.13
9.90 0.1510 63.35 18
0.18 0.0065 1.19
HD 19679532 918.59 48082.70 0.6872 −40.860 116.5 3.394 0.001430 31.14 99 0.41
GJ 795 a-b 0.56 1.80 0.0122 0.045 2.0 0.068 0.000109 0.79
HD 19679533 14128. 50796. 0.089 72. 2.66 0.0273 514.70 99 0.41
GJ 795 ab-c 555. 0.035 14. 0.0026 1.61
BD+12 4499 2173.3 47551.2 0.459 −41.029 233.58 1.93 0.00113 51.14 29 0.28
GJ 1259 36.4 56.1 0.044 0.060 8.33 0.10 0.00021 3.20
BD+56 2737 650.19 47572.66 0.5971 2.447 12.63 15.56 0.938 111.61 74 1.12
GJ 851.4 0.26 0.91 0.0077 0.105 1.03 0.17 0.039 1.44
20.59 0.709 147.65 53
0.38 0.027 2.90
HD 21461534 7725. 45741. 0.54 −12.57 11.43 1.36 0.00122 122. 35 0.43
GJ 867.1A (G) 952. 221. 0.13 0.11 12.49 0.22 0.00070 27.
BD+42 4471 374.57 47098.21 0.440 −32.64 343.33 8.03 0.01455 37.11 25 0.32
GJ 870 0.62 1.92 0.012 0.15 2.68 0.13 0.00077 0.66
HD 21758035 453.90 49162.2 0.518 −44.186 239.78 2.501 0.000426 13.36 25 0.27
GJ 886 1.78 8.5 0.041 0.058 3.90 0.097 0.000067 0.65
HD 22377836 7.753470 47000.4492 0.0000 4.54 0.00 46.74 0.3609 4.983 7 0.32
GJ 909 A 0.000065 0.0094 0.0061 0.37 60. 0.75 0.0045 0.025
48.95 0.3446 5.219 6
0.93 0.0041 0.031

Notes. The G-type stars with an orbit in DM91 are included in this table when their elements are significantly improved thanks to additional observations; they are indicated by “(G)” following the GJ identification.

(8)

First orbit by Griffin (1987); other orbit by Scarfe (1988).

(9)

Preliminary orbit in DM91; first orbit with ΔT longer than the period.

(10)

Triple system.

(11)

First orbit by Griffin et al. (1985).

(12)

Preliminary orbit by Latham et al. (2002).

(13)

We improve the orbit of DM91.

(14)

First SB orbit; the star was already a VB with known orbital elements (Al-Wardat et al. 2014).

(15)

Orbit derived taking into account 15 Elodie measurements found in the Elodie Archive; the offset of the Elodie RVs is −0.193 km s −1.

(16)

First orbit by Tokovinin et al. (1994); other orbit by Latham et al. (2002).

(17)

First orbit by Griffin et al. (1985); other orbit by Tokovinin (1990).

(18)

First orbit by Griffin & Emerson (1975).

(19)

First orbit by Griffin & Griffin (1982); combined VB+SB2 orbits by Mason et al. (1996) and by Pourbaix (2000).

(20)

We improve the orbit of DM91; high precision orbit by Sahlmann et al. (2011).

(21)

We improve the CORAVEL orbit of Jasniewicz & Mayor (1988).

(22)

We improve the preliminary orbit of DM91; first orbit with ΔT longer than the period.

(23)

The period of the interferometric orbit by Tokovinin et al. (2015) is assumed.

(24)

The orbital elements were derived taking into account Elodie RV measurements; the offset of the Elodie RVs is −0.028 km s −1.

(25)

First orbit by Kamper & Lyons (1981); other orbit by Beavers & Salzer (1983); high precision orbits by Nidever et al. (2002) and by Katoh et al. (2013, 2016).

(26)

First orbit by Tokovinin (1991); we improve the orbit of Duquennoy et al. (1992).

(27)

We improve the orbit of Duquennoy & Mayor (1988).

(28)

First orbit by Tokovinin (1991); high precision orbit by Katoh et al. (2013).

(29)

The BY Dra variable star; first orbit by Bopp & Evans (1973); other orbit by Vogt & Fekel (1979).

(30)

First orbit by Tokovinin (1991); high precision orbit by Kiefer et al. (2018).

(31)

First orbit by McClure (1983); combined VB+SB2 orbit by Pourbaix (2000). A high precision VB+SB2 orbit was derived by Kiefer et al. (2018).

(32)

Triple system; first orbit by Duquennoy (1987).

(33)

The period and the semi-amplitude were fixed to the results of the SB+VB solution derived by Tokovinin & Latham (2017).

(34)

Preliminary orbit based on observations that do not completely cover the orbital period.

(35)

First orbit by Tokovinin et al. (1994), based on CORAVEL observations; other orbit by Latham et al. (2002)

(36)

First orbit by Christie (1934).

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