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Table 3:

Table of results. In Col. (1) star identifier; Col. (2) the spectral type (from SIMBAD), the other columns are described in Sect. 4. The EW of H$\alpha $ (Col. 5) is negative when in emission, ``a'' for absorption, and ``fi'' for filled up H$\alpha $. The evolutionary state of the circumstellar disk (Col. 14) is represented by ``accr.'' for accretion disk, ``non-accr.'' for non-accreting and optically thick disks, and ``debris'' for disks with cold dust only, ``none'' for verified absence of a circumstellar disk. No entry means no data is available. Stars marked with $^\dagger $ have been taken from the Torres et al. (2006) list.
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15)
Star ID SpTv,w $v\sin i$ $\sigma_{v\sin i}$ EW(H$\alpha $) $\sigma_{EW({\rm H}\alpha)}$ $W_{{\rm H}\alpha }$ EW(He I) Veiling EW(Li I) $\sigma_{EW{\rm (Li {\sc i})}}$ Age $\sigma_{{\rm Age}}$ diskb YSAv
    km s-1 km s-1 Å Å Å Å   Myr Myr    
HD 105 G1 14.7 1.0 a ... ... ... ... 145 4 50 15 debris Tuc/Horu
HD 105 M1.5 5.8 1.7 a ... ... ... ... n/a ... ... ... ... field
HD 105 G6 14.2 1.0   ... ... ... ... 131 10 90 15 debris fieldb
HD 105 G5 7.3 1.1 a ... ... ... ... 191 5 30 15 nonep Tuc/Horu
HD 105 F6 41.8 5.1 a ... ... ... ... 131 5 25 10 none fieldb
HD 105 F8 22.7 2.2 a ... ... ... ... 117 3 30 10 debrism Tuc/Horu
HD 105 K4.5 146.6 11.5 -2.03 0.05 10.2 ... ... 174 5 30 10 debrism Tuc/Horu
HD 105$^\dagger $ K3 30.7 2.3 -0.1 0.01 1.5 ... ... 291 8 15 10 ... field
HD 105 F8.5 33.5 1.9 a ... ... ... ... 132 5 30 10 ... fieldt
HD 105 G9 31.7 1.8 -0.21 0.03 2.4 ... ... 287 5 20 10 none Tuc/Horu
HD 105 G7.5 3.8 1.9 a ... ... ... ... 34 5 300 50 none fieldb
HD 105 G6 4.2 1.7 a ... ... ... ... 141 5 50 10 debris AB Doru
HD 105 G3.5 6.7 1.2 a ... ... ... ... 120 4 120 20 ... fieldt
HD 105 G5.5 13.6 0.9 a ... ... ... ... 189 3 30 15 debrism Tuc/Horu
HD 105$^\dagger $ K2 22.3 1.5 fi ... ... ... ... 260 5 30 10 ... field
HD 105 K1 3.9 1.9 a ... ... ... ... 182 7 30 10 ... Tuc/Horu
HD 105 K2.5 20.6 1.2 -0.11 0.01 1.8 ... ... 333 5 30 10 ... Tuc/Horu
HD 105 G2.5 15.8 1.0 a ... ... ... ... 173 4 30 15 debris Tuc/Horu
HD 105 K3.5 19.9 1.2 -0.18 0.02 2.0 ... ... 298 5 20 10 ... Tuc/Horu
HD 105 F7.5 43.3 2.7 a ... ... ... ... 125 5 30 15 ... Tuc/Horu
HD 105 G0 7.9 1.0 a ... ... ... ... 99 5 90 10 ... field
HD 105 G4 8.9 1.0 a ... ... ... ... 155 3 60 15 none fieldb
HD 105 M2.5 29.3 1.7 -4.98 0.6 3.5 ... ... 350 5 20 10 nonep Tuc/Horu
HD 105 M2.5 19.0 1.3 -4.07 0.2 2.1 ... ... 16 5 20 10 debrism Tuc/Horu
HD 105 K9.5 9.0 1.0 -1.07 0.05 3.0 ... ... 427 5 10 3 nonep $\beta$ Picu
HD 105 K9 5.9 1.4 -0.64 0.05 2.0 ... ... 98 5 30 10 ... Tuc/Horu
HD 105$^\dagger $ G5 17.0 1.2 a ... ... ... ... 42 2 250 50 ... field
HD 105 K0 4.8 1.6 a ... ... ... ... 206 5 90 10 ... fieldb
HD 105$^\dagger $ G9 6.9 1.2 a ... ... ... ... 230 5 30 15 ... field
HD 105 F9 7.0 1.1 a ... ... ... ... 18 5 400 50 ... ...
HD 105 G1 5.2 1.5 a ... ... ... ... 33 5 600 50 ... ...
HD 105 G5.5 7.1 1.1   ... ... ... ... 165 5 90 10 debris fieldb
HD 105 G6 4.1 1.8 a ... ... ... ... <2 ... >600 ... none fieldb
HD 105 G4 14.7 1.0 a ... ... ... ... 188 4 30 15 none fieldb
HD 105 F9 65.1 4.0 a ... ... ... ... 82 5 200 50 none fieldb
HD 105$^\dagger $ G9 18.1 1.1 a ... ... ... ... 300 3 25 15 ... field
HD 105$^\dagger $ G7 27.7 1.7 a ... ... ... ... 230 1 30 10 ... field
HD 105$^\dagger $ G8 9.3 0.4 a ... ... ... ... 252 3 25 10 ... ...
HD 105 G2 69.6 5.6 a ... ... ... ... 118 5 90 10 none fieldb
HD 105 K4 13.0 1.0 -0.62 0.05 4.0 ... ... 108 5 90 10 none fieldb
HD 105 K2 6.5 1.3 a ... ... ... ... 221 5 30 15 ... Tuc/Horu
HD 105$^\dagger $ F6.5 18.5 1.1 a ... ... ... ... 112 3 50 15 ... AB Doru
HD 105$^\dagger $ G6 30.0 1.8 a ... ... ... ... 240 4 30 10 ... field
HD 105 G2 7.1 1.1 a ... ... ... ... 47 <1 300 50 none fieldr
HD 105$^\dagger $ G7 28.1 1.7 a ... ... ... ... 270 4 30 10 ... field
HD 105$^\dagger $ G9 21.3 1.4 fi ... ... ... ... 280 4 15 5 ... field
HD 105$^\dagger $ G4 20.5 1.3 fi ... ... ... ... 280 4 10 5 none field
HD 105$^\dagger $ K1 11.3 1.0 -0.24 0.03 1.9 ... ... 300 5 20 15 ... field
HD 105 K5.5 5.7 1.4 -0.67 0.03 2.2 ... ... 233 3 30 10 none fieldb
HD 105 G2 8.8 1.0 a ... ... ... ... 96 1 90 10 ... fieldt
HD 105 K0 12.1 0.9 a ... ... ... ... 240 5 60 15 none fieldb
HD 105 K7 5.8 1.5 -1.21 0.03 2.3 ... ... 341 3 10 3 nonep $\beta$ Picu
HD 105$^\dagger $ G 29.2 0.8 a ... ... ... ... 181 6 30 15 noneb field
HD 105 M1.5 10.1 3.8 -5.43 0.2 2.7 ... ... 11 5 12 15 ... $\beta$ Picu
HD 105 ... 11.3 1.5 ... ... ... ... ... ... ... ... ... ... ...
HD 105 F7 73.8 5.7 a ... ... ... ... 108 1 30 10 ... Tuc/Horu
HD 105 G0 71.6 9.6 a ... ... ... ... 149 10 12 15 ... $\beta$ Picu
HD 105 K1 104.5 10.9 a ... ... ... ... 233 19 50 15 nonec AB Doru
HD 105$^\dagger $ K3 43.7 2.4 -20.76 0.2 9.9 0.05 0.95 240 5 5 2 accr.e Ori
HD 105 K0.5 18.6 1.1 a ... ... ... ... 248 5 30 15 ... Tuc/Horu
HD 105 F3 48.4 4.0 a ... ... ... ... 92 3 30 15 ... fieldb
HD 105 G0 27.9 1.6 a ... ... ... ... 200 7 30 15 ... fieldb
HD 105 G1 15.9 1.0 a ... ... ... ... 151 4 60 15 ... fieldt
HD 105 F2 70.7 4.2 a ... ... ... ... 75 5 55 15 ... fieldb
HD 105 G1 7.2 1.1 a ... ... ... ... 82 <1 250 50 ... fieldb
HD 105$^\dagger $ K0 32.6 2.3 a ... ... ... ... 305 1 20 10 ... field
HD 105 F7 32.2 1.8 a ... ... ... ... 115 2 30 10 ... Tuc/Horu
HD 105 F8.5 16.6 1.0 a ... ... ... ... 78 5 200 50 ... fieldr
HD 105$^\dagger $ K1 18.1 1.1 ... ... ... ... ... 240 5 65 15 ... field
HD 105 K3.5 15.9 1.0 -0.79 0.02 2.1 ... ... 398 3 10 5 none $\beta$ Picu
HD 105 K0.5 11.5 0.9 a ... ... ... ... 287 4 30 15 none Tuc/Horu
HD 105 G0.5 42.3 5.0 ... ... ... ... ... n/a ... ... ... debris Tuc/Horu
HD 105 G0 17.2 1.1 a ... ... ... ... 139 5 50 10 ... AB Doru
HD 105 G3 11.6 0.9 a ... ... ... ... 198 3 30 15 none fieldb
HD 105 G0 16.5 1.0 a ... ... ... ... 132 3 50 10 nonec AB Doru
HD 105$^\dagger $ G5 14.2 0.9 a ... ... ... ... 180 2 200 50 ... Carina-Vela
HD 105 F9 46.7 6.8 a ... ... ... ... 136 5 25 10 ... fieldb
HD 105$^\dagger $ K0 14.5 0.5 a ... ... ... ... 288 5 30 15 ... ...
HD 105 K2 9.4 1.0 a ... ... ... ... 271 4 30 15 ... Tuc/Horu
HD 105$^\dagger $ G9 7.7 1.1 a ... ... ... ... 300 5 30 15 ... field
HD 105 G5.5 9.9 0.9 a ... ... ... ... 169 3 30 15 debris fieldr
HD 105 F9.5 14.4 1.0 a ... ... ... ... 122 1 90 10 ... fieldr
HD 105 G2 13.5 0.9 a ... ... ... ... 148 4 70 15 ... fieldb
HD 105$^\dagger $ K4 21.4 1.3 -0.96 0.05 2.9 ... ... 510 6 5 2 noned Cha
HD 105 K2 6.0 1.4 a ... ... ... ... 120 4 90 10 none Chaf
HD 105 F9 4.7 1.6 a ... ... ... ... 9 2 >600 50 none fieldb
HD 105 G7 47.7 3.6 a ... ... ... ... 210 5 60 15 none Chaf
HD 105 G4.5 76.5 8.9 a ... ... ... ... 165 5 30 10 none Chaf
HD 105$^\dagger $ G9 12.9 0.5 fi ... ... ... ... 331 5 8 3 ... ...
HD 105 F9 ... ... a ... ... ... ... 197 5 30 15 ... field
HD 105$^\dagger $ G8 9.0 0.4 fi ... ... ... ... 240 4 25 10 ... ...
HD 105 G8 136.4 10.8 -0.04 0.01 1.5 ... ... 265 5 10 5 none Chaf
HD 105$^\dagger $ G7 24.3 1.6 a ... ... ... ... 78 10 200 100 ... ...
HD 105 K1 18.3 1.1 -0.11 0.01 1.5 ... ... 72 5 8 5 ... TWAk
HD 105 ... 65.4 6.0 ... ... ... ... ... ... ... ... ... ... ...
HD 105 G0 10.3 0.9 a ... ... ... ... 71 4 300 50 none fieldb
HD 105 K2 8.2 1.0 a ... ... ... ... 357 3 8 3 ... TWAu
HD 105 K6 94.7 9.1 -3.55 0.6 5.1 ... ... 500 5 7 3 non-accr.i TWAu
HD 105 G1.5 11.2 0.9 a ... ... ... ... 99 1 250 50 none fieldb
HD 105 K1.5 24.3 1.5 a ... ... ... ... 251 5 40 15 none IC 2602b
HD 105 G2.5 13.9 0.9 a ... ... ... ... 177 6 30 15 none IC 2602b
HD 105 F9 81.1 5.0 a ... ... ... ... 161 1 30 15 ... IC 2602b
HD 105 M1 5.0 2.1 -4.64 0.5 2.1 ... ... 465 10 8 3 non-accr.i TWAu
HD 105 G3 35.2 2.0 a ... ... ... ... 187 5 40 10 none IC 2602b
HD 105 K3 26.8 4.2 a ... ... ... ... 404 8 5 3 none ScoCen/LCCb
HD 105$^\dagger $ K2 36.5 4.4 -26.94 1.24 10.55 0.06 0.07 380 3 5 3 accr. Cha
HD 105 M0 6.2 1.3 -116.78 5 9.5 1.94 0.8 361 <1 8 3 accr.e TWAu
HD 105 G7 6.1 1.3 a ... ... ... ... 106 2 90 10 ... fieldt
HD 105$^\dagger $ G2 38.1 2.2 -26.07 0.5 9.8 0.03 0.05 260 1 5 2 accr.g Cha
HD 105 M0.5 11.8 1.0 -1.89 0.07 2.2 ... ... 509 11 8 3 non-accr.i TWAu
HD 105 G2 4.0 1.9 a ... ... ... ... 21 1 300 50 none fieldb
HD 105 K1 5.0 1.6 -0.09 0.01 1.5 ... ... 312 5 8 5 non-accr.i TWAu
HD 105 ... 8.0 1.1 ... ... ... ... ... ... ... ... ... ... ...
HD 105 G6 17.6 1.1 a ... ... ... ... 95 <1 125 20 ... fieldt
HD 105 M1.5 63.2 9.5 -8.5 0.3 8.8 ... ... 564 5 8 3 nonei TWAu
HD 105 M1 7.1 1.2 -6.43 0.5 2.8 ... ... 475 5 8 3 non-accr.i TWAu
HD 105 K1 9.3 1.1 -0.18 0.02 2.1 ... ... 195 1 15 10 none Chaf
HD 105 F8.5 5.8 1.3 a ... ... ... ... 112 2 90 10 none fieldb
HD 105 G7 30.1 1.7 a ... ... ... ... 197 5 8 5 non-accr.i TWAu
HD 105 K8 7.2 1.6 -0.63 0.02 2.2 ... ... 83 2 12 4 none field
HD 105 K4 10.4 1.0 -1.57 0.07 2.1 ... ... 506 5 7 3 non-accr.i TWAu
HD 105$^\dagger $ G4 40.0 2.7 fi ... ... ... ... 382 1 4 2 non-accr.a Cha
HD 105 G1 3.5 2.1 a ... ... ... ... 52 2 300 50 none fieldb
HD 105 K2 2.7 2.7 a ... ... ... ... 69 6 250 50 none Chaf?
HD 105 K1.5 15.5 1.0 -0.6 0.02 2.8 ... ... 383 5 7 3 ... TWAu
HD 105 G4 8.5 1.0 a ... ... ... ... 149 1 8 15 ... TWAk
HD 105 K4 28.5 1.6 -0.2 0.02 1.5 ... ... 358 2 5 3 debris ScoCen/LCCb
HD 105 K0 17.9 1.1 a ... ... ... ... 311 5 25 10 ... ScoCen/LCCb
HD 105 M0 11.6 1.1 -1.87 0.6 2.8 ... ... 531 13 8 3 ... TWAu
HD 105 K2.5 6.3 1.3 -0.2 0.03 2.1 ... ... 208 2 15 10 none Chaf
HD 105 K2 41.5 2.7 a ... ... ... ... 226 4 30 10 none ScoCen/LCCb
HD 105 G1 70.9 7.3 a ... ... ... ... 191 5 30 10 debris ScoCen/LCCb
HD 105 G7 8.2 1.0 a ... ... ... ... 119 5 125 20 none Chaf
HD 105 G0 7.2 1.1 a ... ... ... ... 94 2 125 20 none fieldb
HD 105$^\dagger $ K0 6.4 0.4 a ... ... ... ... 129 3 90 15 ... ...
HD 105$^\dagger $ K1 18.2 0.8 fi ... ... ... ... 424 8 8 5 ... ...
HD 105$^\dagger $ K3 18.0 0.8 fi ... ... ... ... 429 8 5 3 ... Cha
HD 105$^\dagger $ G9 19.4 0.4 a ... ... ... ... 298 7 5 3 ... ...
HD 105 G9 133.2 7.7 a ... ... ... ... 4 1 >600 50 none ScoCen/LCCb
HD 105 G7.5 28.0 1.6 a ... ... ... ... 235 5 30 10 none ScoCen/LCCb
HD 105$^\dagger $ K0 26.0 1.5 fi ... ... ... ... 400 6 5 3 ... LCC
HD 105 K1.5 8.9 1.0 a ... ... ... ... 367 5 8 3 debris ScoCen/LCCb
HD 105 G4 11.6 0.9 a ... ... ... ... 139 1 90 10 ... fieldr
HD 105 F9.5 115.8 10.2 a ... ... ... ... 208 5 30 15 none ScoCen/LCCb
HD 105 K2 12.9 1.0 -42.11 3 10.5 0.5 0.1 410 5 7 3 accr. ScoCen/LCCb
HD 105 G7 32.1 1.9 a ... ... ... ... 210 3 30 10 none ScoCen/LCCb
HD 105 K1 13.7 1.0 a ... ... ... ... 312 3 30 10 debris ScoCen/UCLb
HD 105 G5 24.2 1.4 a ... ... ... ... 211 4 30 10 ... ScoCen/LCCb
HD 105 K0 69.6 8.7 -0.17 0.02 1.8 ... ... 232 5 30 10 ... ScoCen/UCLb
HD 105 F9.5 25.9 1.5 a ... ... ... ... 94 5 30 15 none ScoCen/UCLb
HD 105 K1 17.5 1.1 a ... ... ... ... 329 5 25 10 none ScoCenb
HD 105$^\dagger $ G0 17.3 1.1 a ... ... ... ... 140 1 200 50 ... UCL
HD 105 ... 17.5 1.1 ... ... ... ... ... ... ... ... ... ... ...
HD 105 G9 10.3 0.9 a ... ... ... ... 290 5 30 10 debris ScoCen/UCLb
HD 105 G7 13.4 0.9 a ... ... ... ... 275 2 30 10 none ScoCen/UCLb
HD 105 G1 115.8 6.7 a ... ... ... ... 60 12 300 50 none ScoCen/UCLb
HD 105 G5 31.9 1.8 a ... ... ... ... 280 3 20 10 none ScoCen/UCLb
HD 105 F9 9.6 0.9 a ... ... ... ... 117 2 30 10 ... fieldb
HD 105 G4 17.9 1.1 a ... ... ... ... 192 5 30 10 ... ScoCen/UCLb
HD 105 K0.5 12.2 0.9 a ... ... ... ... 320 5 30 10 none ScoCen/UCLb
HD 105 G7.5 24.9 1.4 a ... ... ... ... 223 4 45 15 none ScoCen/UCLb
HD 105$^\dagger $ K0 27.8 1.7 fi ... ... ... ... 385 5 8 3 noneo Lup
HD 105 K2.5 25.2 1.5 a ... ... ... ... 321 5 30 15 none ScoCen/UCLb
HD 105$^\dagger $ K0 17.2 1.1 -0.5 0.05 2.5 ... ... 401 10 3 2 noneo Lup
HD 105$^\dagger $ K0 18.0 1.3 fi ... ... ... ... 360 2 5 3 noneo Lup
HD 105$^\dagger $ G7 28.9 1.8 a ... ... ... ... 308 6 5 3 noneo Lup
HD 105 G9 15.6 1.0 a ... ... ... ... 281 5 30 15 none ScoCen/UCLl
HD 105[*]$^\dagger $ K2 9.1 1.1 fi ... ... ... ... 295 1 30 15 ... field
HD 105 G8 18.2 1.1 a ... ... ... ... 278 4 50 15 none $\beta$ Picu
HD 105 G7 32.6 3.2 a ... ... ... ... 149 5 30 10 none ScoCen/UCLb
HD 105 ... 17.4 1.1   ... ... ... ... ... ... ... ... ... ...
HD 105 G7.5 5.1 1.5 a ... ... ... ... 124 5 30 10 none ScoCen/UCLb
HD 105 ... 8.1 1.1   ... ... ... ... ... ... ... ... ... ...
HD 105 K1 10.3 1.0 -1.25 0.03 3.7 ... ... 357 3 12 3 none ScoCen/UCLb
HD 105$^\dagger $ K2 44.8 3.0 -7.02 0.2 11.0 ... ... 442 5 5 2 non-accr. Lup
HD 105$^\dagger $ K8 9.1 1.1 -39.53 0.5 13.2 0.6 0.5 644 5 2 3 accr. Lup
HD 105 G3.5 7.1 1.1 a ... ... ... ... 149 2 30 10 none ScoCen/UCLb
HD 105 ... 8.1 1.1 ... ... ... ... ... ... ... ... ... ... ...
HD 105$^\dagger $ M0 5.9 0.6 -16.08 2.5 7.71 0.1 0.05 566 10 5 3 accr. ...
HD 105 G4 36.3 2.1 a ... ... ... ... 198 2 30 15 debris fieldb
HD 105 G0 5.6 1.4 a ... ... ... ... 116 5 90 10 none fieldb
HD 105 G3 79.4 4.6 a ... ... ... ... 195 5 30 10 none ScoCen/UCLb
HD 105$^\dagger $ M0 12.6 0.6 -5.71 0.51 5.5 0.03 0.1 598 10 5 3 accr. Lup
HD 105 G1 72.5 4.4 a ... ... ... ... 166 3 30 10 ... ScoCen/UCLb
HD 105$^\dagger $ K5 13.4 0.7 -20.38 1.42 7.82 0.3 0.15 567 8 5 3 accr. ...
HD 105$^\dagger $ K3 13.5 1.0 -14.6 2 6.5 0.25 0.15 530 5 3 2 accr. Oph
HD 105$^\dagger $ K3 14.6 1.1 -22.87 4.42 9.98 0.6 0.15 507 8 5 3 accr. ...
HD 105$^\dagger $ K5 8.4 0.5 -20.81 2.48 8.28 0.3 0.25 550 6 8 3 accr. Oph
HD 105 G1 11.3 0.9 a ... ... ... ... 131 2 90 10 none fieldb
HD 105 F9 17.8 1.1 a ... ... ... ... 123 2 50 10 none AB Doru
HD 105$^\dagger $ G9 22.1 1.4 a ... ... ... ... 250 4 25 15 ... field
HD 105$^\dagger $ K5 12.3 1.1 -1.06 0.07 3.1 ... ... 490 1 6 3 ... field
HD 105$^\dagger $ K3 19.1 1.4 -0.27 0.05 2.0 ... ... 455 4 5 2 ... field
HD 105 K2 39.9 2.3 a ... ... ... ... 170 5 12 3 nonep $\beta$ Picu
HD 105 ... 8.8 0.9 ... ... ... ... ... 169 5 ... ... ... ...
HD 105$^\dagger $ K0 10.1 1.0 fi ... ... ... ... 320 4 30 15 ... field
HD 105 G7 41.2 2.3 a ... ... ... ... 248 1 30 15 none Cor Ausb
HD 105 G4 27.8 1.9 a ... ... ... ... 338 5 8 3 none Cor Ausb
HD 105 F5.5 19.4 1.2 a ... ... ... ... 108 <1 15 10 debrisp $\beta$ Picu
HD 105 G3 9.6 0.9 a ... ... ... ... 142 3 75 15 ... fieldr
HD 105 F9 48.8 3.0 a ... ... ... ... 101 5 125 20 ... fieldb
HD 105 F9 15.0 1.0 a ... ... ... ... 92 2 300 50 ... fieldt
HD 105 M0.5 8.2 1.2 -3.16 0.05 2.8 ... ... 56 3 15 10 debrisp $\beta$ Picu
HD 105 F9.5 161.5 11.8 a ... ... ... ... 60 5 300 50 none $\beta$ Picu
HD 105 G1.5 6.4 1.2 a ... ... ... ... 78 5 300 50 none fieldb
HD 105 G2.5 3.5 2.1 a ... ... ... ... n/a ... ... ... debris fieldb
HD 105 G2 5.0 1.5 ... ... ... ... ... n/a ... ... ... none fieldb
HD 105 G4.5 14.9 1.0 a ... ... ... ... 211 1 30 15 ... Tuc/Horu
HD 105 K1 12.9 0.9 a ... ... ... ... 161 11 30 10 debrism Tuc/Horu
HD 105 K1 4.8 1.6 ... ... ... ... ... n/a ... ... ... none fieldb
HD 105$^\dagger $ G7 11.2 0.9 a ... ... ... ... 190 1 50 10 ... AB Dor
HD 105 F9 36.5 2.1 a ... ... ... ... 111 7 30 10 debrism Tuc/Horu
HD 105 F8 16.9 1.0 ... ... ... ... ... n/a ... ... ... ... fieldb
HD 105 G0 5.5 1.4 a ... ... ... ... n/a ... ... ... none fieldb
HD 105 G4 1.5 4.4 a ... ... ... ... n/a ... ... ... none fieldb
HD 105$^\dagger $ K0 9.4 1.0 a ... ... ... ... 245 1 60 15 ... field
HD 105$^\dagger $ K7 6.6 1.4 -12.5 0.6 2.3 ... ... 440 4 8 1 ... field
HD 105$^\dagger $ G5 14.9 1.0 a ... ... ... ... 175 2 75 15 ... field
HD 105 K3 4.5 1.8 a ... ... ... ... 26 5 400 50 ... fieldb
HD 105 G3 12.2 0.9 a ... ... ... ... 163 1 45 10 none AB Doru
HD 105$^\dagger $ M2.5 8.5 1.2 a ... ... ... ... 50 3 30 15 ... field
HD 105 K4 14.0 1.0 -0.7 0.02 1.3 ... ... 200 3 50 15 ... field
HD 105 K1 86.1 9.8 a ... ... ... ... <2 5 >600 50 ... field
HD 105 ... 119.5 10.0 ... ... ... ... ... ... ... ... ... ... ...
HD 105 G8 31.8 1.9 a ... ... ... ... 259 4 30 10 ... field
HD 105$^\dagger $ K0 14.0 1.0 fi ... ... ... ... 300 2 30 15 ... field
HD 105$^\dagger $ M0 9.6 1.2 -1.2 0.03 1.9 ... ... 185 8 30 15 ... field
HD 105 G4 17.5 1.1 a ... ... ... ... 204 5 30 10 debrism Tuc/Horu
HD 105 K2 2.7 2.8 a ... ... ... ... 60 5 50 20 ... AB Doru

References. (a) Brown et al. (2007); (b) Carpenter et al. (2009); (c) Chen et al. (2005); (d) Gautier et al. (2008); (e) Kessler-Silacci et al. (2006); (f) Köhler (2001); (g) Lommen et al. (2007); (h) López-Santiago et al. (2006); (i) Low et al. (2005); (k) Makarov & Fabricius (2001); (l) Mamajek et al. (2002); (m) Mamajek et al. (2004); (n) Neuhäuser et al. (2003); (o) Padgett et al. (2006); (p) Rebull et al. (2008); (r) Soderblom et al. (1998); (s) Torres et al. (2000); (t) Wichmann et al. (2003); (u) Zuckerman & Song (2004); (v) SIMBAD; (w) Weise (2007).


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