EDP Sciences logo
Subscriber Authentication Point
Search
Menu
Home All issues Volume 517 (July 2010) A&A, 517 (2010) A88 Full HTML
Free Access

   

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).


Source LaTeX | All tables | In the text

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.